{"type": "FeatureCollection", "features": [{"id": "10.1007/s13593-023-00911-x", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-25T16:16:40Z", "type": "Journal Article", "created": "2023-09-04", "title": "The role of conservation agriculture practices in mitigating N2O emissions: A meta-analysis", "description": "Abstract\uffc2\uffa0<p>Conservation agriculture is often assumed to reduce soil N2O emissions. Yet, studies analyzing the specific effect of conservation agriculture practices on N2O emissions give contradictory results. Herein, we synthesized a comprehensive database on the three main conservation agriculture practices (cover crops, diversified crop rotations, and no-till and/or reduced tillage (NT/RT)) to elucidate the role of conservation practices on N2O emissions. Further, we used a random meta-forest approach to identify the most important predictors of the effects of these practices on soil N2O emissions. Averaged across all comparisons, NT/RT significantly decreased soil N2O emissions by 11% (95% CI: \uffe2\uff80\uff9319 to \uffe2\uff80\uff931%) compared to conventional tillage. The reductions due to NT/RT were more commonly observed in humid climates and in soils with an initial carbon content &lt; 20 g kg\uffe2\uff80\uff931. The implementation of cover crops and diversified crop rotations led to variable effects on soil N2O emissions. Cover crops were more likely to reduce soil N2O emissions at neutral soil pH, and in soils with intermediate carbon (~20 g kg\uffe2\uff80\uff931) and nitrogen (~3 g kg\uffe2\uff80\uff931) contents. Diversified crop rotations tended to increase soil N2O emissions in temperate regions and neutral to alkaline soils. Our results provide a comprehensive predictive framework to understand the conditions in which the adoption of various conservation agriculture practices can contribute to climate change mitigation. Combining these results with a similar mechanistic understanding of conservation agriculture impacts on ecosystem services and crop production will pave the way for a wider adoption globally of these management practices.</p", "keywords": ["2. Zero hunger", "Diversified crop rotations", "Nitrous oxide", "13. Climate action", "Cover crops", "Agricultural management practices", "Reduced tillage", "No-till", "15. Life on land"]}, "links": [{"href": "https://doi.org/10.1007/s13593-023-00911-x"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agronomy%20for%20Sustainable%20Development", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1007/s13593-023-00911-x", "name": "item", "description": "10.1007/s13593-023-00911-x", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1007/s13593-023-00911-x"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-09-04T00:00:00Z"}}, {"id": "10.1016/j.agee.2018.05.028", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-25T16:16:58Z", "type": "Journal Article", "created": "2018-05-31", "title": "Effects of agricultural management practices on soil quality: A review of long-term experiments for Europe and China", "description": "Open AccessIn this paper we present effects of four paired agricultural management practices (organic matter (OM) addition versus no organic matter input, no-tillage (NT) versus conventional tillage, crop rotation versus monoculture, and organic agriculture versus conventional agriculture) on five key soil quality indicators, i.e., soil organic matter (SOM) content, pH, aggregate stability, earthworms (numbers) and crop yield. We have considered organic matter addition, no-tillage, crop rotation and organic agriculture as 'promising practices'; no organic matter input, conventional tillage, monoculture and conventional farming were taken as the respective references or 'standard practice' (baseline). Relative effects were analysed through indicator response ratio (RR) under each paired practice. For this we considered data of 30 long-term experiments collected from 13 case study sites in Europe and China as collated in the framework of the EU-China funded iSQAPER project. These were complemented with data from 42 long-term experiments across China and 402 observations of long-term trials published in the literature. Out of these, we only considered experiments covering at least five years. The results show that OM addition favourably affected all the indicators under consideration. The most favourable effect was reported on earthworm numbers, followed by yield, SOM content and soil aggregate stability. For pH, effects depended on soil type; OM input favourably affected the pH of acidic soils, whereas no clear trend was observed under NT. NT generally led to increased aggregate stability and greater SOM content in upper soil horizons. However, the magnitude of the relative effects varied, e.g. with soil texture. No-tillage practices enhanced earthworm populations, but not where herbicides or pesticides were applied to combat weeds and pests. Overall, in this review, yield slightly decreased under NT. Crop rotation had a positive effect on SOM content and yield; rotation with ley very positively influenced earthworms' numbers. Overall, crop rotation had little impact on soil pH and aggregate stability \u2212 depending on the type of intercrop; alternatively, rotation of arable crops only resulted in adverse effects. A clear positive trend was observed for earthworm abundance under organic agriculture. Further, organic agriculture generally resulted in increased aggregate stability and greater SOM content. Overall, no clear trend was found for pH; a decrease in yield was observed under organic agriculture in this review.", "keywords": ["China", "Soil Science", "Organic chemistry", "Crop", "01 natural sciences", "Long-term field experiments", "Crop Productivity", "Soil quality", "Environmental science", "Organic Matter Dynamics", "Tillage", "Agricultural and Biological Sciences", "Soil quality indicators", "Crop rotation", "Management of Soil Fertility and Crop Productivity", "Soil water", "FOS: Mathematics", "Agricultural management practices", "Monoculture", "Crop Yield Stability", "Biology", "0105 earth and related environmental sciences", "Literature review", "Response ratio", "Soil science", "2. Zero hunger", "Soil organic matter", "Soil Fertility", "Conventional tillage", "Geography", "Life Sciences", "Agriculture", "04 agricultural and veterinary sciences", "Soil Nutrient Management", "15. Life on land", "Agronomy", "Europe", "Chemistry", "Archaeology", "13. Climate action", "0401 agriculture", " forestry", " and fisheries", "Crop husbandry", "Organic matter", "Intercropping in Agricultural Systems", "Soil Carbon Dynamics and Nutrient Cycling in Ecosystems", "Agronomy and Crop Science", "Mathematics"]}, "links": [{"href": "https://doi.org/10.1016/j.agee.2018.05.028"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agriculture%2C%20Ecosystems%20%26amp%3B%20Environment", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1016/j.agee.2018.05.028", "name": "item", "description": "10.1016/j.agee.2018.05.028", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.agee.2018.05.028"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2018-10-01T00:00:00Z"}}, {"id": "10.3390/land10010008", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:25:09Z", "type": "Journal Article", "created": "2020-12-23", "title": "Impact of Sustainable Land Management Practices on Soil Properties: Example of Organic and Integrated Agricultural Management", "description": "<?xml version='1.0' encoding='UTF-8'?><article><p>Maintaining good soil quality is crucial for the sustainability of agriculture. This study aimed to evaluate the effectiveness of the visual soil assessment (VSA) method by testing it on two soil types and two agricultural management practices (AMP) (organic and integrated) that are considered to protect soil quality. We selected two farms with plots on two river terraces with different soil properties. The test was based on the modified method Annual Crops Visual Quality Assessment developed by the Food and Agriculture Organization of the United Nations and supported by a standardized soil physical and chemical analysis. This study showed that the assessed score is highly dependent on the type of farming practice and how soils are managed. The soil type also plays an important role. The results for Calcaric Fluvisol showed that the effects of selected agricultural management practices on the visual assessment of soil quality could be almost undetectable. The time of assessment also plays a significant role in VSA scoring. Different crops and agricultural activities with significant impacts on the soil occur throughout the year (especially in vegetable production). It was observed that a higher score for the soil cover indicator had a beneficial effect on the total VSA rating.</p></article>", "keywords": ["2. Zero hunger", "kmetijska praksa", "land management; visual assessment; soil quality; agricultural management practice; organic farming; integrated farming", "S", "land management", "visual assessment", "Agriculture", "04 agricultural and veterinary sciences", "organsko kmetijstvo", "15. Life on land", "sonaravno kmetijstvo", "12. Responsible consumption", "trajnostno kmetijstvo", "integrirana pridelava", "agricultural management practice", "organic farming", "vizualna ocena", "0401 agriculture", " forestry", " and fisheries", "soil quality", "integrated farming", "kakovost tal", "upravljanje zemlji\u0161\u010d", "info:eu-repo/classification/udc/631.4"]}, "links": [{"href": "http://www.mdpi.com/2073-445X/10/1/8/pdf"}, {"href": "https://www.mdpi.com/2073-445X/10/1/8/pdf"}, {"href": "https://doi.org/10.3390/land10010008"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Land", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.3390/land10010008", "name": "item", "description": "10.3390/land10010008", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.3390/land10010008"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-12-23T00:00:00Z"}}, {"id": "10.5194/bg-19-5125-2022", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:26:21Z", "type": "Journal Article", "created": "2022-11-10", "title": "Management-induced changes in soil organic carbon  on global croplands", "description": "<?xml version='1.0' encoding='UTF-8'?><article><p>Abstract. Soil organic carbon (SOC), one of the largest terrestrial carbon (C) stocks on Earth, has been depleted by anthropogenic land cover change and agricultural management. However, the latter has so far not been well represented in global C stock assessments. While SOC models often simulate detailed biochemical processes that lead to the accumulation and decay of SOC, the management decisions driving these biophysical processes are still little investigated at the global scale. Here we develop a spatially explicit data set for agricultural management on cropland, considering crop production levels, residue returning rates, manure application, and the adoption of irrigation and tillage practices. We combine it with a reduced-complexity model based on the Intergovernmental Panel on Climate Change (IPCC) tier\u00a02 method to create a half-degree resolution data set of SOC stocks and SOC stock changes for the first 30\u2009cm of mineral soils. We estimate that, due to arable farming, soils have lost around 34.6\u2009GtC relative to a counterfactual hypothetical natural state in 1975. Within the period 1975\u20132010, this SOC debt continued to expand by 5\u2009GtC (0.14\u2009GtC\u2009yr\u22121) to around 39.6\u2009GtC. However, accounting for historical management led to 2.1\u2009GtC fewer (0.06\u2009GtC\u2009yr\u22121) emissions than under the assumption of constant management. We also find that management decisions have influenced the historical SOC trajectory most strongly by residue returning, indicating that SOC enhancement by biomass retention may be a promising negative emissions technique. The reduced-complexity SOC model may allow us to simulate management-induced SOC enhancement \u2013 also within computationally demanding integrated (land use) assessment modeling.                     </p></article>", "keywords": ["570", "AGRICULTURE", "550", "Supplementary Data", "QH301 Biology", "agricultural management", "crop production", "SEQUESTRATION", "551", "01 natural sciences", "630", "NITROGEN-CYCLE", "QH301", "Life", "land cover", "QH501-531", "SDG 13 - Climate Action", "soil carbon", "SDG 2 - Zero Hunger", "EMISSIONS", "CROPS", "QH540-549.5", "global change", "SDG 15 - Life on Land", "0105 earth and related environmental sciences", "2. Zero hunger", "QE1-996.5", "Ecology", "INTENSIFICATION", "VEGETATION MODEL", "Geology", "LAND-USE CHANGE", "15. Life on land", "carbon sequestration", "CLIMATE", "COVER CHANGE", "agricultural land", "13. Climate action", "trajectory", "Intergovernmental Panel on Climate Change"]}, "links": [{"href": "https://bg.copernicus.org/articles/19/5125/2022/bg-19-5125-2022.pdf"}, {"href": "https://doi.org/10.5194/bg-19-5125-2022"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Biogeosciences", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.5194/bg-19-5125-2022", "name": "item", "description": "10.5194/bg-19-5125-2022", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5194/bg-19-5125-2022"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-12-22T00:00:00Z"}}, {"id": "10.5281/zenodo.14000724", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:27:34Z", "type": "Dataset", "title": "EPJSOIL SERENA WP3 T3.3 : France climatic and agricultural change modelling dataset (Naizin)", "description": "Open AccessThe internal EJP SOIL project SERENA contributed to the evaluation of soil multifunctionality aiming at providing assessment tools for land planning and soil policies at different scales. By co-working with relevant stakeholders, the project provided co-developed indicators and associated cookbooks to assess and map them, to report both on soil degradation, soil-based ecosystem services and their bundles, under actual conditions and for climate and land-use changes, at the regional, national, and European scales. \u00a0  Data aims to explore the effect of climate change according to different climate scenario up to 2050, and to understand the resistance of soil in response to climate change and different type of agricultural management. Additionally, it aims to understand the relations between SES, and the main factors affecting Soil Ecosystem Services (SES) variations. Data has been produced by the SERENA team WP3 T3.3 France using JAVA-STICS 10.0.0 model and the STICSonR package, using the input files specified in the data. Results consit of the yearly data of SES calculated from the daily modeling from STICS. Because of the file size of daily results from STICS, such file are not part of the dataset. Input data and R scripts used are instead provided.  Naizin\u2019s soil data come from Walter et al. (1993, 1996, 1998), climatic data were obtained from SAFRAN climatic data provided by M\u00e9t\u00e9o-France and were downloaded via the SICLIMA platform developed by AgroClim-INRAE. Plants and fertilizers data come from default dataset from STICS. All input data are available as part of this dataset.", "keywords": ["SERENA EJP SOIL", "model", "WP3", "T3.3", "Climate", "agricultural management", "STICS", "France", "scenario"], "contacts": [{"organization": "Lemercier, Blandine, Michot, Didier, Boutier, Antoine, Walter, Christian, Gaillot, Arthur, Montagne, David, Le Bas, Christine,", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.14000724"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.14000724", "name": "item", "description": "10.5281/zenodo.14000724", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.14000724"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-10-28T00:00:00Z"}}, {"id": "10.5281/zenodo.14000725", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:27:34Z", "type": "Dataset", "title": "EPJSOIL SERENA WP3 T3.3 : France climatic and agricultural change modelling dataset (Naizin)", "description": "Open AccessThe internal EJP SOIL project SERENA contributed to the evaluation of soil multifunctionality aiming at providing assessment tools for land planning and soil policies at different scales. By co-working with relevant stakeholders, the project provided co-developed indicators and associated cookbooks to assess and map them, to report both on soil degradation, soil-based ecosystem services and their bundles, under actual conditions and for climate and land-use changes, at the regional, national, and European scales. \u00a0  Data aims to explore the effect of climate change according to different climate scenario up to 2050, and to understand the resistance of soil in response to climate change and different type of agricultural management. Additionally, it aims to understand the relations between SES, and the main factors affecting Soil Ecosystem Services (SES) variations. Data has been produced by the SERENA team WP3 T3.3 France using JAVA-STICS 10.0.0 model and the STICSonR package, using the input files specified in the data. Results consit of the yearly data of SES calculated from the daily modeling from STICS. Because of the file size of daily results from STICS, such file are not part of the dataset. Input data and R scripts used are instead provided.  Naizin\u2019s soil data come from Walter et al. (1993, 1996, 1998), climatic data were obtained from SAFRAN climatic data provided by M\u00e9t\u00e9o-France and were downloaded via the SICLIMA platform developed by AgroClim-INRAE. Plants and fertilizers data come from default dataset from STICS. All input data are available as part of this dataset.", "keywords": ["SERENA EJP SOIL", "model", "WP3", "T3.3", "Climate", "agricultural management", "STICS", "France", "scenario"]}, "links": [{"href": "https://doi.org/10.5281/zenodo.14000725"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.14000725", "name": "item", "description": "10.5281/zenodo.14000725", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.14000725"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-10-28T00:00:00Z"}}, {"id": "10.5281/zenodo.14170416", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:27:43Z", "type": "Dataset", "title": "Database for N2O emissions after EOM application", "keywords": ["Nitrous oxide", "agricultural management", "chamber measurements", "external organic matter"], "contacts": [{"organization": "Massad, Raia Silvia", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.14170416"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.14170416", "name": "item", "description": "10.5281/zenodo.14170416", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.14170416"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-11-15T00:00:00Z"}}, {"id": "10.5281/zenodo.14170417", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:27:43Z", "type": "Dataset", "title": "Database for N2O emissions after EOM application", "keywords": ["Nitrous oxide", "agricultural management", "chamber measurements", "external organic matter"], "contacts": [{"organization": "Massad, Raia Silvia", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.14170417"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.14170417", "name": "item", "description": "10.5281/zenodo.14170417", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.14170417"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-11-15T00:00:00Z"}}, {"id": "10.5281/zenodo.3589102", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:29:02Z", "type": "Dataset", "title": "OSMO soil health dataset 2015-2018", "description": "Open AccessThis is soil health data collected from 24 Finnish fields between 2015-2018. The fields were chosen to represent fields with poor and good productivity on a given farm. The dataset is coded based on farm code (two letters) and field code: 0 poor field, no interventions; 1 poor field, improved soil management; K good field. Fields were monitored for soil nutrients, soil physical quality and some biological parameters (aggregate stability, earthworms, arthropods, soil carbon dioxide burst respiration). The overview dataset contains the parameters used for monitoring development in soil health in the fields, the additional dataset present plant tissue nutrient concentrations and soil structure evaluation as well as a comparison of organic matter analysis from three laboratories and a comparison of two aggregate stability assessment methods. More information on the study can be found in the two reports (in Finnish, w. English abstracts): http://hdl.handle.net/10138/229450 http://hdl.handle.net/10138/309062", "keywords": ["2. Zero hunger", "soil compaction", "agroecology", "soil health", "plant nutrients", "agricultural management", "15. Life on land"], "contacts": [{"organization": "Mattila, Tuomas, Rajala, Jukka,", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.3589102"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.3589102", "name": "item", "description": "10.5281/zenodo.3589102", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.3589102"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-01-08T00:00:00Z"}}, {"id": "10.5281/zenodo.7811348", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:29:35Z", "type": "Dataset", "title": "Novel cropping system strategies in China can increase plant protein with higher economic value but lower greenhouse gas emissions and water use", "description": "This database contains the average crop residue, manure nitrogen, manure organic carbon, net greenhouse gas emissions, and cropland area for 17 cropping systems at prefecture level during the period 2014-2018. In addition, it contained the changes of net greenhouse gas emissions caused by the optimization at prefecture level and province level. We also shared the key code for optimizing cropping systems at prefecture level and provided the all data. Users can run it the Matlab platform.", "keywords": ["2. Zero hunger", "Agricultural management", "Climate change mitigation", "Carbon budget", "13. Climate action", "Soil organic carbon", "11. Sustainability", "15. Life on land", "Agricultural system optimization", "Greenhouse gas", "12. Responsible consumption"], "contacts": [{"organization": "Lichang Yin, Fulu Tao, Yi Chen, Yicheng Wang, Philippe Ciais, Pete Smith,", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.7811348"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.7811348", "name": "item", "description": "10.5281/zenodo.7811348", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.7811348"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-04-08T00:00:00Z"}}, {"id": "10.5281/zenodo.8094887", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:29:42Z", "type": "Software", "title": "EJPSOIL CarboSeq crop and soil management database template", "description": "Open AccessTemplate (Excel Spreadsheet)\u00a0\u00a0designed for the EJPSOIL CarboSeq WP2 to collect (meta)data of long term agricultural field experiments for Tier2 (SOC) and where available Tier 3 (carbon input) from Europe.", "keywords": ["15. Life on land", "EJPSOIL", " LTEs", " agricultural management (meta)data"], "contacts": [{"organization": "Blanchy, G., D'Hose, T., De Boever, M., Keiblinger, K., Spiegel, H., Sand\u00e9n, T., Alvaro-Fuentes, J., Kay, S., Seidel, F., Don, A., Ruysschaert, G.,", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.8094887"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.8094887", "name": "item", "description": "10.5281/zenodo.8094887", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.8094887"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-06-29T00:00:00Z"}}, {"id": "10.60692/wzwcw-szh03", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-25T16:30:30Z", "type": "Journal Article", "created": "2018-05-30", "title": "Effects of agricultural management practices on soil quality: A review of long-term experiments for Europe and China", "description": "Open AccessIn this paper we present effects of four paired agricultural management practices (organic matter (OM) addition versus no organic matter input, no-tillage (NT) versus conventional tillage, crop rotation versus monoculture, and organic agriculture versus conventional agriculture) on five key soil quality indicators, i.e., soil organic matter (SOM) content, pH, aggregate stability, earthworms (numbers) and crop yield. We have considered organic matter addition, no-tillage, crop rotation and organic agriculture as 'promising practices'; no organic matter input, conventional tillage, monoculture and conventional farming were taken as the respective references or 'standard practice' (baseline). Relative effects were analysed through indicator response ratio (RR) under each paired practice. For this we considered data of 30 long-term experiments collected from 13 case study sites in Europe and China as collated in the framework of the EU-China funded iSQAPER project. These were complemented with data from 42 long-term experiments across China and 402 observations of long-term trials published in the literature. Out of these, we only considered experiments covering at least five years. The results show that OM addition favourably affected all the indicators under consideration. The most favourable effect was reported on earthworm numbers, followed by yield, SOM content and soil aggregate stability. For pH, effects depended on soil type; OM input favourably affected the pH of acidic soils, whereas no clear trend was observed under NT. NT generally led to increased aggregate stability and greater SOM content in upper soil horizons. However, the magnitude of the relative effects varied, e.g. with soil texture. No-tillage practices enhanced earthworm populations, but not where herbicides or pesticides were applied to combat weeds and pests. Overall, in this review, yield slightly decreased under NT. Crop rotation had a positive effect on SOM content and yield; rotation with ley very positively influenced earthworms' numbers. Overall, crop rotation had little impact on soil pH and aggregate stability \u2212 depending on the type of intercrop; alternatively, rotation of arable crops only resulted in adverse effects. A clear positive trend was observed for earthworm abundance under organic agriculture. Further, organic agriculture generally resulted in increased aggregate stability and greater SOM content. Overall, no clear trend was found for pH; a decrease in yield was observed under organic agriculture in this review.", "keywords": ["Soil Science", "Organic chemistry", "Crop", "01 natural sciences", "Long-term field experiments", "Crop Productivity", "Soil quality", "Environmental science", "Organic Matter Dynamics", "Tillage", "Agricultural and Biological Sciences", "Soil quality indicators", "Crop rotation", "Management of Soil Fertility and Crop Productivity", "Soil water", "FOS: Mathematics", "Agricultural management practices", "Monoculture", "Crop Yield Stability", "Biology", "0105 earth and related environmental sciences", "Literature review", "Response ratio", "Soil science", "2. Zero hunger", "Soil organic matter", "Soil Fertility", "Conventional tillage", "Geography", "Life Sciences", "Agriculture", "04 agricultural and veterinary sciences", "Soil Nutrient Management", "15. Life on land", "Agronomy", "Chemistry", "Archaeology", "13. Climate action", "0401 agriculture", " forestry", " and fisheries", "Organic matter", "Intercropping in Agricultural Systems", "Soil Carbon Dynamics and Nutrient Cycling in Ecosystems", "Agronomy and Crop Science", "Mathematics"]}, "links": [{"href": "https://doi.org/10.60692/wzwcw-szh03"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agriculture%2C%20Ecosystems%20%26amp%3B%20Environment", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.60692/wzwcw-szh03", "name": "item", "description": "10.60692/wzwcw-szh03", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.60692/wzwcw-szh03"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2018-10-01T00:00:00Z"}}, {"id": "2807448259", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-25T16:33:07Z", "type": "Journal Article", "created": "2018-05-31", "title": "Effects of agricultural management practices on soil quality: A review of long-term experiments for Europe and China", "description": "Open AccessIn this paper we present effects of four paired agricultural management practices (organic matter (OM) addition versus no organic matter input, no-tillage (NT) versus conventional tillage, crop rotation versus monoculture, and organic agriculture versus conventional agriculture) on five key soil quality indicators, i.e., soil organic matter (SOM) content, pH, aggregate stability, earthworms (numbers) and crop yield. We have considered organic matter addition, no-tillage, crop rotation and organic agriculture as 'promising practices'; no organic matter input, conventional tillage, monoculture and conventional farming were taken as the respective references or 'standard practice' (baseline). Relative effects were analysed through indicator response ratio (RR) under each paired practice. For this we considered data of 30 long-term experiments collected from 13 case study sites in Europe and China as collated in the framework of the EU-China funded iSQAPER project. These were complemented with data from 42 long-term experiments across China and 402 observations of long-term trials published in the literature. Out of these, we only considered experiments covering at least five years. The results show that OM addition favourably affected all the indicators under consideration. The most favourable effect was reported on earthworm numbers, followed by yield, SOM content and soil aggregate stability. For pH, effects depended on soil type; OM input favourably affected the pH of acidic soils, whereas no clear trend was observed under NT. NT generally led to increased aggregate stability and greater SOM content in upper soil horizons. However, the magnitude of the relative effects varied, e.g. with soil texture. No-tillage practices enhanced earthworm populations, but not where herbicides or pesticides were applied to combat weeds and pests. Overall, in this review, yield slightly decreased under NT. Crop rotation had a positive effect on SOM content and yield; rotation with ley very positively influenced earthworms' numbers. Overall, crop rotation had little impact on soil pH and aggregate stability \u2212 depending on the type of intercrop; alternatively, rotation of arable crops only resulted in adverse effects. A clear positive trend was observed for earthworm abundance under organic agriculture. Further, organic agriculture generally resulted in increased aggregate stability and greater SOM content. Overall, no clear trend was found for pH; a decrease in yield was observed under organic agriculture in this review.", "keywords": ["Soil Science", "Organic chemistry", "Crop", "01 natural sciences", "Long-term field experiments", "Crop Productivity", "Soil quality", "Environmental science", "Organic Matter Dynamics", "Tillage", "Agricultural and Biological Sciences", "Soil quality indicators", "Crop rotation", "Management of Soil Fertility and Crop Productivity", "Soil water", "FOS: Mathematics", "Agricultural management practices", "Monoculture", "Crop Yield Stability", "Biology", "0105 earth and related environmental sciences", "Literature review", "Response ratio", "Soil science", "2. Zero hunger", "Soil organic matter", "Soil Fertility", "Conventional tillage", "Geography", "Life Sciences", "Agriculture", "04 agricultural and veterinary sciences", "Soil Nutrient Management", "15. Life on land", "Agronomy", "Chemistry", "Archaeology", "13. Climate action", "0401 agriculture", " forestry", " and fisheries", "Organic matter", "Intercropping in Agricultural Systems", "Soil Carbon Dynamics and Nutrient Cycling in Ecosystems", "Agronomy and Crop Science", "Mathematics"]}, "links": [{"href": "https://doi.org/2807448259"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agriculture%2C%20Ecosystems%20%26amp%3B%20Environment", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "2807448259", "name": "item", "description": "2807448259", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/2807448259"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2018-10-01T00:00:00Z"}}, {"id": "20.500.12556/RUL-134801", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-25T16:32:29Z", "type": "Journal Article", "created": "2020-12-23", "title": "Impact of Sustainable Land Management Practices on Soil Properties: Example of Organic and Integrated Agricultural Management", "description": "<?xml version='1.0' encoding='UTF-8'?><article><p>Maintaining good soil quality is crucial for the sustainability of agriculture. This study aimed to evaluate the effectiveness of the visual soil assessment (VSA) method by testing it on two soil types and two agricultural management practices (AMP) (organic and integrated) that are considered to protect soil quality. We selected two farms with plots on two river terraces with different soil properties. The test was based on the modified method Annual Crops Visual Quality Assessment developed by the Food and Agriculture Organization of the United Nations and supported by a standardized soil physical and chemical analysis. This study showed that the assessed score is highly dependent on the type of farming practice and how soils are managed. The soil type also plays an important role. The results for Calcaric Fluvisol showed that the effects of selected agricultural management practices on the visual assessment of soil quality could be almost undetectable. The time of assessment also plays a significant role in VSA scoring. Different crops and agricultural activities with significant impacts on the soil occur throughout the year (especially in vegetable production). It was observed that a higher score for the soil cover indicator had a beneficial effect on the total VSA rating.</p></article>", "keywords": ["2. Zero hunger", "kmetijska praksa", "S", "land management", "visual assessment", "Agriculture", "04 agricultural and veterinary sciences", "organsko kmetijstvo", "15. Life on land", "sonaravno kmetijstvo", "12. Responsible consumption", "trajnostno kmetijstvo", "integrirana pridelava", "agricultural management practice", "organic farming", "vizualna ocena", "0401 agriculture", " forestry", " and fisheries", "soil quality", "integrated farming", "kakovost tal", "upravljanje zemlji\u0161\u010d", "info:eu-repo/classification/udc/631.4"]}, "links": [{"href": "http://www.mdpi.com/2073-445X/10/1/8/pdf"}, {"href": "https://www.mdpi.com/2073-445X/10/1/8/pdf"}, {"href": "https://doi.org/20.500.12556/RUL-134801"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Land", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "20.500.12556/RUL-134801", "name": "item", "description": "20.500.12556/RUL-134801", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/20.500.12556/RUL-134801"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-12-23T00:00:00Z"}}, {"id": "2164/20152", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-25T16:32:45Z", "type": "Journal Article", "created": "2022-11-10", "title": "Management-induced changes in soil organic carbon  on global croplands", "description": "<?xml version='1.0' encoding='UTF-8'?><article><p>Abstract. Soil organic carbon (SOC), one of the largest terrestrial carbon (C) stocks on Earth, has been depleted by anthropogenic land cover change and agricultural management. However, the latter has so far not been well represented in global C stock assessments. While SOC models often simulate detailed biochemical processes that lead to the accumulation and decay of SOC, the management decisions driving these biophysical processes are still little investigated at the global scale. Here we develop a spatially explicit data set for agricultural management on cropland, considering crop production levels, residue returning rates, manure application, and the adoption of irrigation and tillage practices. We combine it with a reduced-complexity model based on the Intergovernmental Panel on Climate Change (IPCC) tier\u00a02 method to create a half-degree resolution data set of SOC stocks and SOC stock changes for the first 30\u2009cm of mineral soils. We estimate that, due to arable farming, soils have lost around 34.6\u2009GtC relative to a counterfactual hypothetical natural state in 1975. Within the period 1975\u20132010, this SOC debt continued to expand by 5\u2009GtC (0.14\u2009GtC\u2009yr\u22121) to around 39.6\u2009GtC. However, accounting for historical management led to 2.1\u2009GtC fewer (0.06\u2009GtC\u2009yr\u22121) emissions than under the assumption of constant management. We also find that management decisions have influenced the historical SOC trajectory most strongly by residue returning, indicating that SOC enhancement by biomass retention may be a promising negative emissions technique. The reduced-complexity SOC model may allow us to simulate management-induced SOC enhancement \u2013 also within computationally demanding integrated (land use) assessment modeling.</p></article>", "keywords": ["570", "AGRICULTURE", "550", "Supplementary Data", "QH301 Biology", "agricultural management", "crop production", "SEQUESTRATION", "551", "01 natural sciences", "630", "NITROGEN-CYCLE", "QH301", "Life", "land cover", "QH501-531", "SDG 13 - Climate Action", "soil carbon", "SDG 2 - Zero Hunger", "EMISSIONS", "CROPS", "QH540-549.5", "global change", "SDG 15 - Life on Land", "0105 earth and related environmental sciences", "2. Zero hunger", "QE1-996.5", "Ecology", "INTENSIFICATION", "VEGETATION MODEL", "Geology", "LAND-USE CHANGE", "15. Life on land", "carbon sequestration", "CLIMATE", "COVER CHANGE", "agricultural land", "13. Climate action", "trajectory", "Intergovernmental Panel on Climate Change"]}, "links": [{"href": "https://bg.copernicus.org/articles/19/5125/2022/bg-19-5125-2022.pdf"}, {"href": "https://doi.org/2164/20152"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Biogeosciences", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "2164/20152", "name": "item", "description": "2164/20152", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/2164/20152"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-12-22T00:00:00Z"}}, {"id": "d1cdbca9-3f3e-4995-a79e-b5b464e97b04", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[9.9, 51.98], [9.9, 52.01], [9.96, 52.01], [9.96, 51.98], [9.9, 51.98]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "Top soil"}, {"id": "Subsoil"}, {"id": "soil compaction"}, {"id": "Soil pore system"}, {"id": "Soil porosity"}, {"id": "Soil macropores"}, {"id": "Field capacity"}, {"id": "Wilting point"}, {"id": "Hydraulic conductivity"}, {"id": "agriculture"}, {"id": "Vehicles"}, {"id": "Harvesters"}, {"id": "Tillage"}, {"id": "Conservation tillage"}, {"id": "Conventional tillage"}, {"id": "Ploughing"}, {"id": "management"}, {"id": "Management techniques"}, {"id": "On-farm research"}, {"id": "Field experimentation"}, {"id": "Traffic"}, {"id": "Soil sampling"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "Bodenfunktion"}, {"id": "Bodenstruktur"}, {"id": "Physikalische Ver\u00e4nderung"}, {"id": "Bodenwasser"}, {"id": "Bodenschutz"}, {"id": "Bodenuntersuchung"}, {"id": "Probenahme"}, {"id": "Boden"}], "scheme": "GEMET - INSPIRE themes, version 1.0"}, {"concepts": [{"id": "opendata"}, {"id": "Soil physical parameters"}, {"id": "Soil density"}, {"id": "Dry bulk density"}, {"id": "Soil water content"}, {"id": "Soil deformation"}, {"id": "Soil hydraulic properties"}, {"id": "Soil water retention"}, {"id": "Air capaciy"}, {"id": "Plant available water"}, {"id": "Agricultural machineries"}, {"id": "Agricultural management"}, {"id": "Soil management"}, {"id": "Field experiment"}, {"id": "Wheeling experiment"}, {"id": "Field traffic"}, {"id": "Soil conserving traffic"}], "scheme": "individual"}], "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the BonaRes Module A-Project - SOILAssist's research activities.\" Although every care has been taken in preparing and testing the data, the BonaRes Module A-Project - SOILAssist and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the BonaRes Module A-Project - SOILAssist and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The BonaRes Module A-Project - SOILAssist and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data. The access to this data is restricted during embargo time. If prior access is requested, contact the data owner / author.", "updated": "2023-07-17", "type": "Dataset", "created": "2020-05-13", "language": "eng", "title": "Soil pressure, deformation, and changes in soil physical parameters caused by combine harvester wheeling", "description": "In recent years, agricultural machinery became steadily larger and heavier. Especially under wet soil conditions, when soil is susceptible to compaction, heavy wheel load field traffic can lead to harmful soil compaction. This data set contains soil data from a wheeling experiment with an agricultural vehicle (2-axle combine harvester with bunker; total weight: 17 t). The experiment was conducted in 2016 on an agricultural test field in Adenstedt (Hildesheim district, Lower Saxony, Germany) during the harvest campaign. The soil type is Stagnic Luvisol derived from Loess and was conventionally tilled with a plough up to a depth of 28 cm. The cultivated crop was winter wheat. For the wheeling experiment, a combine harvester with full bunker volume passed defined plots in the field. In the inner field area, the number of wheel passes were 2 and in the headlands the number of wheel passes were 6. The sampling sites were both located in the inner field area and in the headlands. To investigate changes in soil physical parameters, soil structure, and soil functions caused by combine harvester driving, undisturbed soil cores (100 cm\u00b3) were taken before (unwheeled) and after wheeling (wheeled). The unwheeled soil samples were taken in 22, 35, and 50 depth and the wheeled soil samples in 20, 35, and 50 cm depth. In the inner field area, two soil pits were sampled per wheeling variant and in the headlands, one soil pit was sampled per wheeling variant. Additionally, the soil biopores were counted in every one of the three soil depths. A total of 30 undisturbed soil samples were taken per each soil pit, 10 per each soil depth.5 of the 10 undisturbed sampling rings were used to investigate soil water retention and the other 5 for saturated hydraulic conductivity. The determination of pF values was conducted in the soil laboratory using sand and clay boxes as well as pressure pots according to DIN ISO 11274. Saturated hydraulic conductivity was analyzed using a soil water permeameter (open system) according to ISO / FDIS 17312. The soil parameters total pore volume, air capacity, field capacity, usable field capacity, permanent wilting point, dry bulk density, and current water content during soil sampling were derived from the soil laboratory results.\n\nResearch domain: Soil Sciences", "formats": [{"name": "CSV"}], "keywords": ["Soil", "Top soil", "Subsoil", "soil compaction", "Soil pore system", "Soil porosity", "Soil macropores", "Field capacity", "Wilting point", "Hydraulic conductivity", "agriculture", "Vehicles", "Harvesters", "Tillage", "Conservation tillage", "Conventional tillage", "Ploughing", "management", "Management techniques", "On-farm research", "Field experimentation", "Traffic", "Soil sampling", "Bodenfunktion", "Bodenstruktur", "Physikalische Ver\u00e4nderung", "Bodenwasser", "Bodenschutz", "Bodenuntersuchung", "Probenahme", "Boden", "opendata", "Soil physical parameters", "Soil density", "Dry bulk density", "Soil water content", "Soil deformation", "Soil hydraulic properties", "Soil water retention", "Air capaciy", "Plant available water", "Agricultural machineries", "Agricultural management", "Soil management", "Field experiment", "Wheeling experiment", "Field traffic", "Soil conserving traffic"], "contacts": [{"name": "Weise, Maike", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "maike.weise@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Lorenz, Marco", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "marco.lorenz@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Ortmeier, Berthold", "organization": "-", "position": null, "roles": ["other"], "phones": [{"value": null}], "emails": [{"value": "-"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Brunotte, Joachim", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "joachim.brunotte@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Lorenz, Marco", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["projectManager"], "phones": [{"value": null}], "emails": [{"value": "marco.lorenz@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Thomas, Celina", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["dataCurator"], "phones": [{"value": null}], "emails": [{"value": "celina.thomas@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "BonaRes Data Centre", "organization": "Leibniz Centre for Agricultural Landscape Research (ZALF)", "position": "Research Platform 'Data Analysis & Simulation' - WG Geodata", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 171"}], "emails": [{"value": "bonares-datenzentrum@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": null}]}, {"organization": "Th\u00fcnen Institute of Agricultural Technology", "roles": ["contributor"]}], "title_alternate": "Changes of soil physical and soil functional parameters caused by driving of a combine harvester on arable land"}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=d1cdbca9-3f3e-4995-a79e-b5b464e97b04", "rel": "download"}, {"rel": "self", "type": "application/geo+json", "title": "d1cdbca9-3f3e-4995-a79e-b5b464e97b04", "name": "item", "description": "d1cdbca9-3f3e-4995-a79e-b5b464e97b04", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/d1cdbca9-3f3e-4995-a79e-b5b464e97b04"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-07-17T00:00:00Z"}}, {"id": "a2fbdaab-010f-4778-840b-27e9f1b002dd", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[13.32, 52.35], [13.32, 52.35], [13.32, 52.35], [13.32, 52.35], [13.32, 52.35]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "horticulture"}, {"id": "long-term experiments"}, {"id": "vegetable crops"}, {"id": "fertilization"}, {"id": "fertilizers"}, {"id": "soil types"}, {"id": "soil fertility"}, {"id": "soil organic carbon"}, {"id": "soil organic matter"}, {"id": "field crops"}, {"id": "crop management"}, {"id": "crop production"}, {"id": "crop rotation"}, {"id": "crop residues"}, {"id": "crop residue management"}, {"id": "crop yield"}, {"id": "nutrient balance"}, {"id": "nutrient management"}, {"id": "nutrient uptake"}, {"id": "nutrient use efficiency"}, {"id": "nutrient utilization"}, {"id": "nitrogen"}, {"id": "nitrogen balance"}, {"id": "nitrogen content"}, {"id": "nitrogen fertilizers"}, {"id": "nitrogen-use efficiency"}, {"id": "potassium"}, {"id": "phosphorus"}, {"id": "magnesium"}, {"id": "cucumbers"}, {"id": "Cucumis"}, {"id": "Cucumis sativus"}, {"id": "carrots"}, {"id": "Daucus carota"}, {"id": "cabbages"}, {"id": "Brassica oleracea var. capitata"}, {"id": "leeks"}, {"id": "Allium ampeloprasum"}, {"id": "celery"}, {"id": "Apium graveolens"}, {"id": "Apium graveolens var. rapaceum"}, {"id": "farmyard manure"}, {"id": "organic amendments"}, {"id": "organic fertilizers"}, {"id": "slurry"}, {"id": "bark mulches"}, {"id": "resource management"}, {"id": "Luvisols"}, {"id": "Fluvisols"}, {"id": "Phaeozems"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}, {"id": "agricultural management"}, {"id": "horticulture"}, {"id": "crop production"}, {"id": "crop rotation"}, {"id": "crop waste"}, {"id": "cultivation"}, {"id": "cultivation system"}, {"id": "cultivation method"}, {"id": "food production (agriculture)"}, {"id": "irrigation farming"}, {"id": "manure"}, {"id": "mineral fertiliser"}, {"id": "nitrogenous fertiliser"}, {"id": "organic fertiliser"}, {"id": "soil fertilisation"}, {"id": "soil fertility"}, {"id": "vegetable"}, {"id": "vegetable cultivation"}, {"id": "vegetable waste"}, {"id": "yield (agricultural)"}, {"id": "resource utilisation"}, {"id": "organic matter"}, {"id": "phosphate"}], "scheme": "GEMET - Concepts, version 2.4"}], "license": "CC BY", "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the Other's research activities.\" Although every care has been taken in preparing and testing the data, the Other and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the Other and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The Other and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2024-08-27", "type": "Dataset", "created": "2022-07-19", "language": "eng", "title": "50 years box plot experiment in Grossbeeren (1972 - 2022) - Experiment Setting", "description": "Description of Table 25\n\nGeneral description see mother table: (https://doi.org/10.20387/bonares-fd75-nca9); Related datasets are listed in the metadata element 'Related Identifier'.\nDataset version 1.0", "formats": [{"name": "CSV"}], "keywords": ["horticulture", "long-term experiments", "vegetable crops", "fertilization", "fertilizers", "soil types", "soil fertility", "soil organic carbon", "soil organic matter", "field crops", "crop management", "crop production", "crop rotation", "crop residues", "crop residue management", "crop yield", "nutrient balance", "nutrient management", "nutrient uptake", "nutrient use efficiency", "nutrient utilization", "nitrogen", "nitrogen balance", "nitrogen content", "nitrogen fertilizers", "nitrogen-use efficiency", "potassium", "phosphorus", "magnesium", "cucumbers", "Cucumis", "Cucumis sativus", "carrots", "Daucus carota", "cabbages", "Brassica oleracea var. capitata", "leeks", "Allium ampeloprasum", "celery", "Apium graveolens", "Apium graveolens var. rapaceum", "farmyard manure", "organic amendments", "organic fertilizers", "slurry", "bark mulches", "resource management", "Luvisols", "Fluvisols", "Phaeozems", "opendata", "Boden", "agricultural management", "horticulture", "crop production", "crop rotation", "crop waste", "cultivation", "cultivation system", "cultivation method", "food production (agriculture)", "irrigation farming", "manure", "mineral fertiliser", "nitrogenous fertiliser", "organic fertiliser", "soil fertilisation", "soil fertility", "vegetable", "vegetable cultivation", "vegetable waste", "yield (agricultural)", "resource utilisation", "organic matter", "phosphate"], "contacts": [{"name": "Eric B\u00f6necke", "organization": "Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "boenecke@igzev.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Dominik M\u00fcller", "organization": "Martin-Luther University Halle-Wittenberg", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "dominik.mueller2@student.uni-halle.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "ZALF", "organization": "Leibniz Centre for Agricultural Landscape Research (ZALF)", "position": "Research Platform 'Data Analysis & Simulation' - Workgroup Research Data Management", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 300"}], "emails": [{"value": "dataservice@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": null}]}, {"name": "J\u00f6rg R\u00fchlmann", "organization": "Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "ruehlmann@igzev.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"organization": "Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "roles": ["contributor"]}], "title_alternate": "LTE: Part 25/25, table: Experiment Setting"}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=", "rel": "download"}, {"href": "https://metadata.bonares.de:443/smartEditor/preview/Sellerie_2016.JPG", "name": "preview", "description": "Web image thumbnail (URL)", "protocol": "WWW:LINK-1.0-http--image-thumbnail", "rel": "preview"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/03b52930-0210-4bfc-a4ac-75f7544ce7a5", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "a2fbdaab-010f-4778-840b-27e9f1b002dd", "name": "item", "description": "a2fbdaab-010f-4778-840b-27e9f1b002dd", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/a2fbdaab-010f-4778-840b-27e9f1b002dd"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-08-27T00:00:00Z"}}, {"id": "bc466e30-b683-4859-ae4f-577cbc6505f7", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[5.87, 47.27], [5.87, 55.06], [15.03, 55.06], [15.03, 47.27], [5.87, 47.27]]]}, "properties": {"rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the Other's research activities.\" Although every care has been taken in preparing and testing the data, the Other and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the Other and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The Other and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2023-12-12", "type": "Service", "created": "2022-09-30", "language": "eng", "title": "Web Map Service of the dataset 'Germany-wide time series of interpolated phenological observations for main crop types between 1993 and 2021'", "description": "This Web Map Service includes spatial information used by the dataset \"Germany-wide time series of interpolated phenological observations for main crop types between 1993 and 2021''", "keywords": ["infoMapAccessService", "agricultural management", "Soil", "agricultural practices", "agricultural practices", "crop rotation", "environmental monitoring", "multiple regression analysis", "plant developmental stages", "phenology", "elevation", "land use", "meteorological geographical features", "geographical grid systems"], "contacts": [{"name": "M\u00f6ller, Markus", "organization": "Julius K\u00fchn Institute (JKI) \u2013 Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Bundesallee 69, D-38116 Braunschweig, Germany", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "markus.moeller@julius-kuehn.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org", "protocol": null, "protocol_url": "", "name": "0000-0002-1918-7747", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "M\u00f6ller, Markus", "organization": "Julius K\u00fchn Institute (JKI) \u2013 Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Bundesallee 58, 38116 Braunschweig, Germany", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "markus.moeller@julius-kuehn.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org", "protocol": null, "protocol_url": "", "name": "0000-0002-1918-7747", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "BonaRes Data Center", "organization": "Leibniz Centre for Agricultural Landscape Research (ZALF)", "position": "Research Platform 'Data Analysis & Simulation' - 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INSPIRE themes, version 1.0"}, {"concepts": [{"id": "Soil"}, {"id": "agricultural practices"}, {"id": "agricultural practices"}, {"id": "crop rotation"}, {"id": "environmental monitoring"}, {"id": "multiple regression analysis"}, {"id": "plant developmental stages"}, {"id": "phenology"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "elevation"}, {"id": "land use"}, {"id": "meteorological geographical features"}, {"id": "geographical grid systems"}], "scheme": "INSPIRE Annex 4"}]}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=33aa2643-5018-4e31-8b88-c2eb0a7a56f8", "rel": "information"}, {"href": "https://maps.bonares.de/wss/service/ags-relay/ags/guest/arcgis/rest/services/Extern/ID_3982_PHASE/MapServer/WMSServer?request=GetCapabilities&service=WMS"}, {"rel": "self", "type": "application/geo+json", "title": "bc466e30-b683-4859-ae4f-577cbc6505f7", "name": "item", "description": "bc466e30-b683-4859-ae4f-577cbc6505f7", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/bc466e30-b683-4859-ae4f-577cbc6505f7"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-12-12T00:00:00Z"}}, {"id": "65c50647-b035-43a5-b1aa-1f03c6f8ee2e", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[9.9, 51.98], [9.9, 52.01], [9.96, 52.01], [9.96, 51.98], [9.9, 51.98]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "Top soil"}, {"id": "Subsoil"}, {"id": "soil compaction"}, {"id": "Soil pore system"}, {"id": "Soil porosity"}, {"id": "Soil macropores"}, {"id": "Field capacity"}, {"id": "Wilting point"}, {"id": "Hydraulic conductivity"}, {"id": "agriculture"}, {"id": "Vehicles"}, {"id": "Harvesters"}, {"id": "Tillage"}, {"id": "Conservation tillage"}, {"id": "Conventional tillage"}, {"id": "Ploughing"}, {"id": "management"}, {"id": "Management techniques"}, {"id": "On-farm research"}, {"id": "Field experimentation"}, {"id": "Traffic"}, {"id": "Soil sampling"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "Bodenfunktion"}, {"id": "Bodenstruktur"}, {"id": "Physikalische Ver\u00e4nderung"}, {"id": "Bodenwasser"}, {"id": "Bodenschutz"}, {"id": "Bodenuntersuchung"}, {"id": "Probenahme"}, {"id": "Boden"}], "scheme": "GEMET - INSPIRE themes, version 1.0"}, {"concepts": [{"id": "opendata"}, {"id": "Soil physical parameters"}, {"id": "Soil density"}, {"id": "Dry bulk density"}, {"id": "Soil water content"}, {"id": "Soil deformation"}, {"id": "Soil hydraulic properties"}, {"id": "Soil water retention"}, {"id": "Air capacity"}, {"id": "Plant available water"}, {"id": "Agricultural machineries"}, {"id": "Agricultural management"}, {"id": "Soil management"}, {"id": "Field experiment"}, {"id": "Wheeling experiment"}, {"id": "Field traffic"}, {"id": "Soil conserving traffic"}], "scheme": "individual"}], "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the BonaRes Module A-Project - SOILAssist's research activities.\" Although every care has been taken in preparing and testing the data, the BonaRes Module A-Project - SOILAssist and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the BonaRes Module A-Project - SOILAssist and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The BonaRes Module A-Project - SOILAssist and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data. The access to this data is restricted during embargo time. If prior access is requested, contact the data owner / author.", "updated": "2023-07-17", "type": "Dataset", "created": "2020-05-13", "language": "eng", "title": "Soil pressure, deformation, and changes in soil physical parameters caused by beet harvester wheeling", "description": "In recent years, agricultural machinery became steadily larger and heavier. Especially under wet soil conditions, when soil is susceptible to compaction, heavy wheel load field traffic can lead to harmful soil compaction. This data set contains soil data from a wheeling experiment with an agricultural vehicle (3-axle sugar beet harvester). The experiment was conducted in 2016 on an agricultural test field in Adenstedt (Hildesheim district, Lower Saxony, Germany). The soil type is Stagnic Luvisol derived from Loess and was tilled with a cultivator up to a depth of 25 cm (reduced tillage). For the wheeling experiment, the harvester passed defined plots in the field with a full bunker (total weight: 62 t) and a half full bunker (total weight: 49 t). Maximum soil pressure and plastic soil deformation evoked by harvester passing was measured simultaneously with a multi-channel device consisting of Bolling probes (Bolling, 1987) and hydrostatic measuring hoses (Nolting et al., 2006). Maximum soil pressure and plastic soil deformation was measured in 20, 35, and 50 cm depth directly below the center of the tires. To investigate changes in soil physical parameters, soil structure, and soil functions caused by harvester driving, undisturbed soil cores (100 cm\u00b3) were taken before (unwheeled) and after wheeling (wheeled). Wheeling variants in the inner field area were sugar beet harvester with half full bunker and full bunker volume driving with all wheels in the same track (3 wheel passes). The wheeling variant of the headland area was sugar beet harvester with full bunker volume and multiple wheel passes in front of the sugar beet clamp. The sampling sites were located both in the inner field area and in the headlands. Two soil pits were sampled per wheeling variant in the inner field area and one soil pit in the headlands. A total of 30 undisturbed soil samples were taken per each soil pit, 10 per each soil depth (20, 35, 50 cm). The soil biopores were counted in every one of the three soil depths. 5 of the 10 undisturbed sampling rings were used to investigate soil water retention and the other 5 for saturated hydraulic conductivity. The determination of pF values was conducted in the soil laboratory using sand and clay boxes as well as pressure pots according to DIN ISO 11274. Saturated hydraulic conductivity was analyzed using a soil water permeameter (open system) according to ISO / FDIS 17312. The soil parameters, total pore volume, air capacity, field capacity, usable field capacity, permanent wilting point, dry bulk density, and current water content during soil sampling were derived from the soil laboratory results.\n\nResearch domain: Soil Sciences", "formats": [{"name": "CSV"}], "keywords": ["Soil", "Top soil", "Subsoil", "soil compaction", "Soil pore system", "Soil porosity", "Soil macropores", "Field capacity", "Wilting point", "Hydraulic conductivity", "agriculture", "Vehicles", "Harvesters", "Tillage", "Conservation tillage", "Conventional tillage", "Ploughing", "management", "Management techniques", "On-farm research", "Field experimentation", "Traffic", "Soil sampling", "Bodenfunktion", "Bodenstruktur", "Physikalische Ver\u00e4nderung", "Bodenwasser", "Bodenschutz", "Bodenuntersuchung", "Probenahme", "Boden", "opendata", "Soil physical parameters", "Soil density", "Dry bulk density", "Soil water content", "Soil deformation", "Soil hydraulic properties", "Soil water retention", "Air capacity", "Plant available water", "Agricultural machineries", "Agricultural management", "Soil management", "Field experiment", "Wheeling experiment", "Field traffic", "Soil conserving traffic"], "contacts": [{"name": "Weise, Maike", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "maike.weise@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Lorenz, Marco", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "marco.lorenz@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Ortmeier, Berthold", "organization": "-", "position": null, "roles": ["other"], "phones": [{"value": null}], "emails": [{"value": "-"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Brunotte, Joachim", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "joachim.brunotte@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Lorenz, Marco", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["projectManager"], "phones": [{"value": null}], "emails": [{"value": "marco.lorenz@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Thomas, Celina", "organization": "Th\u00fcnen Institute of Agricultural Technology", "position": "Research associate", "roles": ["dataCurator"], "phones": [{"value": null}], "emails": [{"value": "celina.thomas@thuenen.de"}], "addresses": [{"deliveryPoint": ["Bundesallee 47"], "city": "Braunschweig", "administrativeArea": null, "postalCode": "38116", "country": "Germany"}], "links": [{"href": null}]}, {"name": "BonaRes Data Centre", "organization": "Leibniz Centre for Agricultural Landscape Research (ZALF)", "position": "Research Platform 'Data Analysis & Simulation' - WG Geodata", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 171"}], "emails": [{"value": "bonares-datenzentrum@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": null}]}, {"organization": "Th\u00fcnen Institute of Agricultural Technology", "roles": ["contributor"]}], "title_alternate": "Changes of soil physical and soil functional parameters caused by driving of a sugar beet harvester on arable land and measuring of soil pressure and soil deformation"}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=65c50647-b035-43a5-b1aa-1f03c6f8ee2e", "rel": "download"}, {"rel": "self", "type": "application/geo+json", "title": "65c50647-b035-43a5-b1aa-1f03c6f8ee2e", "name": "item", "description": "65c50647-b035-43a5-b1aa-1f03c6f8ee2e", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/65c50647-b035-43a5-b1aa-1f03c6f8ee2e"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-07-17T00:00:00Z"}}, {"id": "790f500e-a3c3-4673-bf10-bcd7f591eb42", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[-31.27, 27.64], [-31.27, 69.06], [29.72, 69.06], [29.72, 27.64], [-31.27, 27.64]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "farm survey"}, {"id": "farming systems"}, {"id": "sustainable agriculture"}, {"id": "conservation agriculture"}, {"id": "motivation"}, {"id": "extensification"}, {"id": "good agricultural practices"}, {"id": "grassland management"}, {"id": "biodiversity conservation"}, {"id": "decision making"}, {"id": "socioecological systems"}, {"id": "farm management"}, {"id": "common agricultural policy"}, {"id": "labelling"}, {"id": "cooperative farming"}, {"id": "hedge"}, {"id": "olive oil"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}, {"id": "farmers\u2019 attitudes"}, {"id": "agricultural management"}, {"id": "hedgerows"}, {"id": "flower strips"}, {"id": "semi-natural habitats"}, {"id": "discrete choice experiment"}, {"id": "spatial experiment"}], "scheme": "Individual"}, {"concepts": [{"id": "Bodennutzung"}], "scheme": "GEMET - 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Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the ZALF Datenerfassung's research activities.\" Although every care has been taken in preparing and testing the data, the ZALF Datenerfassung and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the ZALF Datenerfassung and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The ZALF Datenerfassung and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2025-10-02", "type": "Dataset", "created": "2025-09-29", "language": "eng", "title": "Survey of farmers on (perception of) biodiversity management in agriculture in ten European countries", "description": "We conducted a large-scale survey among farmers in ten countries across Europe (Estonia, France, Hungary, Portugal, Romania, Spain, Sweden, Switzerland, the Netherlands, and the UK) to assess their viewpoints on biodiversity (management) in agriculture. We collected basic data on agricultural structure and farm management, including biodiversity innovations and other practices promoting biodiversity, the awareness and knowledge of farmers on the relevance of biodiversity for their economic and ecological performance and perceptions to achieve biodiversity targets based on stated preferences. The relevant sections of the survey cover farmers\u2019 willingness to: 1) implement biodiversity measures, such as flower strips, hedgerows or extensive grassland management, asking for their motivation, necessary conditions, knowledge, importance of biodiversity outcomes and environmental effectiveness, but also the perceived risks they have; 2) participate agri-environmental schemes to foster biodiversity, including aspects such as biodiversity labelling, spatial connection bonus, advice/information or support through cooperation along the value chain through food hubs; and 3) participate in a new biodiversity business model based on Key Performance Indicators (KPIs). Furthermore, the survey encompasses a spatial experiment on where farmers would place biodiversity measures (hedgerows and flower strips) in the field, accounting for influencing factors such as slope, soil quality, wind, proximity to streets, forest or pre-existing hedgerows. The survey was conducted online, and supplemented by hard copy questionnaires, face-to-face interviews, and workshops where online contacts to farmers could not be established easily. The data collection took place between March and November 2023.", "formats": [{"name": "CSV"}], "keywords": ["Soil", "farm survey", "farming systems", "sustainable agriculture", "conservation agriculture", "motivation", "extensification", "good agricultural practices", "grassland management", "biodiversity conservation", "decision making", "socioecological systems", "farm management", "common agricultural policy", "labelling", "cooperative farming", "hedge", "olive oil", "opendata", "farmers\u2019 attitudes", "agricultural management", "hedgerows", "flower strips", "semi-natural habitats", "discrete choice experiment", "spatial experiment", "Bodennutzung", "Europe", "Portugal", "Spain", "France", "The Netherlands", "United Kingdom", "Sweden", "Switzerland", "Estonia", "Hungary", "Romania"], "contacts": [{"name": "Leibniz Centre for Agricultural Landscape Research", "organization": "ZALF", "position": "Research Platform 'Data Analysis & Simulation' - Workgroup Research Data Management", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 300"}], "emails": [{"value": "dataservice@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "https://ror.org/01ygyzs83", "name_url": "", "description": "ROR", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Kati H\u00e4fner", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "kati.haefner@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0001-6413-4540", "name_url": "", "description": 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Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the ZALF Datenerfassung's research activities.\" Although every care has been taken in preparing and testing the data, the ZALF Datenerfassung and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the ZALF Datenerfassung and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The ZALF Datenerfassung and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2025-10-28", "type": "Dataset", "created": "2025-09-29", "language": "eng", "title": "Systematic map of models and decision support tools used in agroforestry", "description": "The dataset summarizes information on models and decision support tools used in agroforestry based on systematic mapping of academic publications complemented by screening the web-sites of international agroforestry organizations. Publications were retrieved on 19.04.2024 from Scopus and Web of Science, and 859 records from 658 sources were included into the dataset. Records include model name and description, specification of source data and modelled diversification (spatial, temporal and system components), and the list of modelled agroecosystem functions and design attributes. The description of systematic literature mapping protocol is given in Ardanov et al. 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Freedman", "organization": "Sustainable Agriculture Research and Education Program, University of California Agriculture and Natural Resources, Davis, California, USA", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "kafreedman@ucdavis.edu"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0001-8716-4099", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Steffen Kolb", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "Steffen.Kolb@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-5455-8662", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Sonja Brodt", "organization": "Sustainable Agriculture Research and Education Program, University of California Agriculture and Natural Resources, Davis, California, USA", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "sbbrodt@ucanr.edu"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-5979-7371", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Pavlo Ardanov", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "pavlo.ardanov@gmail.com"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0003-0229-915X", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"organization": "Research Institute of Forestry and Forest Melioration named after G. M. Vysotsky (URIFFM), Kharkiv, Ukraine;Leibniz Centre for Agricultural Landscape Research;Sustainable Agriculture Research and Education Program, University of California Agriculture and Natural Resources, Davis, California, USA", "roles": ["contributor"]}]}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=545539c8-6498-43d5-9713-85d3722c58ee", "rel": "information"}, {"rel": "self", "type": "application/geo+json", "title": "545539c8-6498-43d5-9713-85d3722c58ee", "name": "item", "description": "545539c8-6498-43d5-9713-85d3722c58ee", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/545539c8-6498-43d5-9713-85d3722c58ee"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2025-10-28T00:00:00Z"}}, {"id": "03b52930-0210-4bfc-a4ac-75f7544ce7a5", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[13.26, 52.31], [13.26, 52.4], [13.38, 52.4], [13.38, 52.31], [13.26, 52.31]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "horticulture"}, {"id": "long-term experiments"}, {"id": "vegetable crops"}, {"id": "fertilization"}, {"id": "fertilizers"}, {"id": "soil types"}, {"id": "soil fertility"}, {"id": "soil organic carbon"}, {"id": "soil organic matter"}, {"id": "field crops"}, {"id": "crop management"}, {"id": "crop production"}, {"id": "crop rotation"}, {"id": "crop residues"}, {"id": "crop residue management"}, {"id": "crop yield"}, {"id": "nutrient balance"}, {"id": "nutrient management"}, {"id": "nutrient uptake"}, {"id": "nutrient use efficiency"}, {"id": "nutrient utilization"}, {"id": "nitrogen"}, {"id": "nitrogen balance"}, {"id": "nitrogen content"}, {"id": "nitrogen fertilizers"}, {"id": "nitrogen-use efficiency"}, {"id": "potassium"}, {"id": "phosphorus"}, {"id": "magnesium"}, {"id": "cucumbers"}, {"id": "Cucumis"}, {"id": "Cucumis sativus"}, {"id": "carrots"}, {"id": "Daucus carota"}, {"id": "cabbages"}, {"id": "Brassica oleracea var. capitata"}, {"id": "leeks"}, {"id": "Allium ampeloprasum"}, {"id": "celery"}, {"id": "Apium graveolens"}, {"id": "Apium graveolens var. rapaceum"}, {"id": "farmyard manure"}, {"id": "organic amendments"}, {"id": "organic fertilizers"}, {"id": "slurry"}, {"id": "bark mulches"}, {"id": "resource management"}, {"id": "Luvisols"}, {"id": "Fluvisols"}, {"id": "Phaeozems"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}, {"id": "agricultural management"}, {"id": "horticulture"}, {"id": "crop production"}, {"id": "crop rotation"}, {"id": "crop waste"}, {"id": "cultivation"}, {"id": "cultivation system"}, {"id": "cultivation method"}, {"id": "food production (agriculture)"}, {"id": "irrigation farming"}, {"id": "manure"}, {"id": "mineral fertiliser"}, {"id": "nitrogenous fertiliser"}, {"id": "organic fertiliser"}, {"id": "soil fertilisation"}, {"id": "soil fertility"}, {"id": "vegetable"}, {"id": "vegetable cultivation"}, {"id": "vegetable waste"}, {"id": "yield (agricultural)"}, {"id": "resource utilisation"}, {"id": "organic matter"}, {"id": "phosphate"}], "scheme": "GEMET - Concepts, version 2.4"}], "license": "CC BY", "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the Other's research activities.\" Although every care has been taken in preparing and testing the data, the Other and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the Other and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The Other and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2025-05-12", "type": "Dataset", "created": "2024-08-20", "language": "eng", "title": "50 years box plot experiment in Grossbeeren (1972 - 2022) - Plots", "description": "The Box Plot Experiment in Grossbeeren was set up in 1972 to investigate the effect of different fertilization strategies within an irrigated vegetable crop rotation system for three different soils. Therefore, this vegetable long-term fertilization experiment can be used to investigate different plant-soil-systems under the same climatic conditions. The experimented was halted in 2022. The experimental site (52\u00b021\u201901.30\u2019\u2019 N, 13\u00b019\u201905.47\u2019\u2019 E, 50 m a.s.l.) is located in the transition zone between the more maritime-affected Northern German Plain and the continental climate of the European mainland. Weather data were collected in an agrometeorological station close to the experimental area. The long-term means (1991-2020) for air temperature and annual precipitation are 9.7 \u00b0C and 492 mm. The single plots are quadratic concrete boxes with walls of 10 cm thickness, a surface area of 4 m2 and a depth of 75 cm. The upper 50 cm are filled with the tested soils; the lower 25 cm comprises a coarse-sandy drainage layer. The three soil types are Arenic Luvisol (weak loamy sand), Gleyic Fluvisol (heavy sandy loam) and Luvic-Phaeozem (medium clayey silt) according to the World Reference Base \u2013 WRB (and the Bodenkundliche Kartieranleitung \u2013 KA4). Within 10 rotations, the vegetable species white cabbage (Brassica oleracea L. var. capitata f. alba), carrot (Daucus carota L.), cucumber (Cucumis sativus L.), leek (Allium porrum L.) and celery (Apium graveolens L. var. rapaceum Mill.) were cultivated. No celery was cultivated during the first rotation. The experiment consists of 12 fertilization treatments in different combinations of mineral N fertilization and organic amendments and as quadruplicate for each of the three soils. The experimental set-up scheme can be found in the supplementary material. Mineral N fertilizer was applied as calcium ammonium nitrate. Mineral P and K fertilization was uniform for all treatments. Total N and total C in soil, plant and organic amendments were determined using a CNS analyser VARIO El (Elemental Hanau) since 1995 and before by wet combustion with K2Cr2O7 und H2SO4. C and N in the soil samples and N in the plant samples were analysed annually. The C contents of the crop residues (leaf + stalk + root) of the five vegetable species were investigated irregularly. In autumn, the soil was annually dug up to 20 cm by using a spade. Weeds were removed by a combination of mechanical (cultivator, rake or hoe) and chemical measures. Insect protection nets, insecticides or fungicides were used where necessary. Approximately 150 mm per year was additionally irrigated with a sprinkler system. More details about the experiment\u2019s description can be found in the supplementary material. Description of table 1\n\nRelated datasets are listed in the metadata element 'Related Identifier'.\nDataset version 1.0", "formats": [{"name": "CSV"}], "keywords": ["horticulture", "long-term experiments", "vegetable crops", "fertilization", "fertilizers", "soil types", "soil fertility", "soil organic carbon", "soil organic matter", "field crops", "crop management", "crop production", "crop rotation", "crop residues", "crop residue management", "crop yield", "nutrient balance", "nutrient management", "nutrient uptake", "nutrient use efficiency", "nutrient utilization", "nitrogen", "nitrogen balance", "nitrogen content", "nitrogen fertilizers", "nitrogen-use efficiency", "potassium", "phosphorus", "magnesium", "cucumbers", "Cucumis", "Cucumis sativus", "carrots", "Daucus carota", "cabbages", "Brassica oleracea var. capitata", "leeks", "Allium ampeloprasum", "celery", "Apium graveolens", "Apium graveolens var. rapaceum", "farmyard manure", "organic amendments", "organic fertilizers", "slurry", "bark mulches", "resource management", "Luvisols", "Fluvisols", "Phaeozems", "opendata", "Boden", "agricultural management", "horticulture", "crop production", "crop rotation", "crop waste", "cultivation", "cultivation system", "cultivation method", "food production (agriculture)", "irrigation farming", "manure", "mineral fertiliser", "nitrogenous fertiliser", "organic fertiliser", "soil fertilisation", "soil fertility", "vegetable", "vegetable cultivation", "vegetable waste", "yield (agricultural)", "resource utilisation", "organic matter", "phosphate"], "contacts": [{"name": "Eric B\u00f6necke", "organization": "Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "boenecke@igzev.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Dominik M\u00fcller", "organization": "Martin-Luther University Halle-Wittenberg", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "dominik.mueller2@student.uni-halle.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "J\u00f6rg R\u00fchlmann", "organization": "Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "ruehlmann@igzev.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "J\u00f6rg R\u00fchlmann", "organization": "Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "ruehlmann@igzev.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "ZALF", "organization": "Leibniz Centre for Agricultural Landscape Research (ZALF)", "position": "Research Platform 'Data Analysis & Simulation' - Workgroup Research Data Management", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 300"}], "emails": [{"value": "dataservice@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": null}]}, {"organization": "Martin-Luther University Halle-Wittenberg;Leibniz-Institut f\u00fcr Gem\u00fcse- und Zierpflanzenbau - IGZ", "roles": ["contributor"]}], "title_alternate": "LTE: Part 1/25, table: Plots"}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=03b52930-0210-4bfc-a4ac-75f7544ce7a5", "rel": "download"}, {"href": "https://metadata.bonares.de:443/smartEditor/preview/Sellerie_2016.JPG", "name": "preview", "description": "Web image thumbnail (URL)", "protocol": "WWW:LINK-1.0-http--image-thumbnail", "rel": "preview"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/03b52930-0210-4bfc-a4ac-75f7544ce7a5", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "03b52930-0210-4bfc-a4ac-75f7544ce7a5", "name": "item", "description": "03b52930-0210-4bfc-a4ac-75f7544ce7a5", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/03b52930-0210-4bfc-a4ac-75f7544ce7a5"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2025-05-12T00:00:00Z"}}, {"id": "6ab178db-0ae7-4220-8408-7462eceacd2c", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[11.0, 52.0], [11.0, 54.0], [11.0, 54.0], [11.0, 52.0], [11.0, 52.0]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "soil organisms"}, {"id": "tillage"}, {"id": "tillage equipment"}, {"id": "cultivation equipment"}, {"id": "intensification"}, {"id": "anthropogenic factors"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}, {"id": "mouldboard ploughing"}, {"id": "intensive cultivation soil biodiversity"}, {"id": "impacts on soil fauna"}, {"id": "anthropogenic effects"}, {"id": "agricultural intensification."}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}, {"id": "agricultural management"}, {"id": "cultivation method"}, {"id": "cultivation of agricultural land"}, {"id": "cultivation system"}, {"id": "soil biodiversity"}, {"id": "intensive farming"}], "scheme": "GEMET - Concepts, version 2.4"}, {"concepts": [{"id": "agricultural management"}, {"id": "cultivation method"}, {"id": "cultivation of agricultural land"}, {"id": "cultivation system"}, {"id": "soil biodiversity"}, {"id": "intensive farming"}], "scheme": "INSPIRE"}], "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the BonaRes Centre's research activities.\" Although every care has been taken in preparing and testing the data, the BonaRes Centre and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the BonaRes Centre and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The BonaRes Centre and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2022-11-18", "type": "Dataset", "created": "2022-11-08", "language": "eng", "title": "Database for meta-analysis: Reducing tillage intensity benefits the soil micro- and mesofauna in a global meta-analysis.", "description": "This dataset includes data extracted from published studies reporting results on the effects of different tillage intensities on soil fauna. The literature was systematically reviewed in compliance with the Preferred Reporting Items for Systematic Reviews and Meta-analysis framework (\u201cPRISMA\u201d). Peer-reviewed publications were searched using the Web of Science search engine, including all available databases with the following search terms: \u201cTOPIC: (tillage OR plough* OR chisel* OR till* OR mouldboard* OR disc* OR tine* OR rotatory OR rotary OR harrow* ) AND (fauna* OR biota* OR organism* OR mesofauna* OR acari OR mite* OR enchytraeid* OR nematod* OR springtail* OR collembola*)\u201c. The resulting database covers 3459 observations from 133 publications published between 1981 and 2020.\n\nResearch domain: Ecology of Agricultural Landscapes\n\nResearch question: (1) What is the effect of reducing tillage intensity on density and diversity of soil micro- and mesofaunal communities?\n(2) What are the main pedoclimatic conditions and concurrent management practices that drive the effects of reducing tillage intensity on soil fauna i.e., fertilization regimes, soil-related (pH, organic matter, texture) and climatic factors?", "formats": [{"name": "CSV"}], "keywords": ["Soil", "soil organisms", "tillage", "tillage equipment", "cultivation equipment", "intensification", "anthropogenic factors", "opendata", "mouldboard ploughing", "intensive cultivation soil biodiversity", "impacts on soil fauna", "anthropogenic effects", "agricultural intensification.", "Boden", "agricultural management", "cultivation method", "cultivation of agricultural land", "cultivation system", "soil biodiversity", "intensive farming", "agricultural management", "cultivation method", "cultivation of agricultural land", "cultivation system", "soil biodiversity", "intensive farming"], "contacts": [{"name": "Bibiana Betancur-Corredor", "organization": "Senckenberg Museum f\u00fcr Naturkunde G\u00f6rlitz, Bonares Center for Soil Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "bibiana.betancurcorredor@senckenberg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org/", "protocol": null, "protocol_url": "", "name": "0000-0003-1942-4527", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "David J. Russell", "organization": "Senckenberg Museum f\u00fcr Naturkunde G\u00f6rlitz, Bonares Center for Soil Research", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "david.russell@senckenberg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org/", "protocol": null, "protocol_url": "", "name": "0000-0002-7514-4573", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": null, "organization": "Leibniz Centre for Agricultural Landscape Research (ZALF)", "position": "Research Platform 'Data Analysis & Simulation' - Workgroup Research Data Management", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 300"}], "emails": [{"value": "dataservice@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Birgit Lang", "organization": "Senckenberg Museum f\u00fcr Naturkunde G\u00f6rlitz, Bonares Center for Soil Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "birgit.lang@senckenberg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org/", "protocol": null, "protocol_url": "", "name": "0000-0002-7514-4573", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"organization": "Senckenberg Museum f\u00fcr Naturkunde G\u00f6rlitz, Bonares Center for Soil Research", "roles": ["contributor"]}]}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=6ab178db-0ae7-4220-8408-7462eceacd2c", "rel": "download"}, {"rel": "self", "type": "application/geo+json", "title": "6ab178db-0ae7-4220-8408-7462eceacd2c", "name": "item", "description": "6ab178db-0ae7-4220-8408-7462eceacd2c", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/6ab178db-0ae7-4220-8408-7462eceacd2c"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2022-11-18T00:00:00Z"}}, {"id": "33aa2643-5018-4e31-8b88-c2eb0a7a56f8", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[5.87, 47.27], [5.87, 55.06], [15.03, 55.06], [15.03, 47.27], [5.87, 47.27]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "agricultural practices"}, {"id": "crop rotation"}, {"id": "environmental monitoring"}, {"id": "multiple regression analysis"}, {"id": "plant developmental stages"}, {"id": "phenology"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}, {"id": "agricultural management"}, {"id": "crop rotation"}, {"id": "environmental monitoring"}, {"id": "interpolation"}, {"id": "seasonal variation"}, {"id": "biological development"}], "scheme": "GEMET - Concepts, version 2.4"}, {"concepts": [{"id": "elevation"}, {"id": "land use"}, {"id": "meteorological geographical features"}, {"id": "geographical grid systems"}], "scheme": "INSPIRE"}, {"concepts": [{"id": "Germany"}], "scheme": "individual"}], "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Repository www.bonares.de. This data were created as part of the JKI's research activities.\" Although every care has been taken in preparing and testing the data, the JKI and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the JKI and the BonaRes Repository accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The Other and BonaRes Repository will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2023-12-13", "type": "Dataset", "created": "2022-09-30", "language": "eng", "title": "Germany-wide time series of interpolated phenological observations for main crop types between 1993 and 2021", "description": "<p>The data set documents a Germany-wide and spatio-temporally consistent 1 \u00d7 1 km\u00b2 analysis-ready time series (ARD-TS) of interpolated DOYs (days of the year) covering 56 beginning phenological development stages (phases) of 9 main crop types for the period between 1993 and 2021. The derivation is based on Germany-wide observations of the German Weather Service (DWD), which were statistically filtered and interpolated. </p> \n<p>The German Weather Service operates a phenological observation network. About 1200 observers monitor 160 phenological phases of wild and cultivated plants. The PHASE model was developed to interpolate the phenological observations for the entire territory of Germany (Gerstmann et al. (2016) Rel.Identifer TAB 8). The model combines the concept of growing degree days (GDD) with a geostatistical interpolation procedure. The PHASE model was applied to create a Germany-wide and spatio-temporally consistent 1 \u00d7 1 km\u00b2 analysis-ready time series (ARD-TS) of interpolated DOYs (days of the year) covering 56 beginning phenological development stages (phases) of 9 main crop types for the period between 1993 and 2021. The dataset includes the following information: </p>\n<p>\n\u2022\tGermany-wide interpolated temperature data from the German Weather Service (DWD), <br/> \n\u2022\traster datasets of interpolated crop-specific and Germany-wide incipient phenological development stages for the period between 1993 and 2020. The value in each pixel of these rasters represents the Day Of the Year (DOY) of the respective beginning phenological plant development stage, \n<br/>\n\u2022\taccuracy metrics (RMSE, MSE, MAE, and R\u00b2) for each Germany-wide interpolation result. </p>\n<p>The code of the phase model is documented in a software repository (Rel.Identifer TAB 9 and 10). The temporally static model input data are also stored there. </p>\n<p><b>Research question </b> <br/> \nThe dataset allows the spatio-temporal definition of phenological windows for any available year and user-defined region (M\u00f6ller et al. (2020) Rel.Identifer TAB 1). Such information is important for various agricultural issues such as the derivation of weather or biodiversity indices, crop classification, soil erosion or crop yield modeling (Bucheli et al. (2022) Rel.Identifer TAB 5; Gerstmann et al. (2018) ; Rel.Identifer TAB 3; M\u00f6ller et al. (2017, 2018) ; Rel.Identifer TAB 2 and 4; Riedsel et al. (2022) ; Rel.Identifer TAB 6).  </p> \nAll relvant papers are listed under RelatedIdentifier. <br/>\nA form for creating an individual WCS can be found here:<br/>\n<a href=\"https://sf.julius-kuehn.de/openapi/phase/\">https://sf.julius-kuehn.de/openapi/phase/</a>", "formats": [{"name": "CSV"}], "keywords": ["Soil", "agricultural practices", "crop rotation", "environmental monitoring", "multiple regression analysis", "plant developmental stages", "phenology", "opendata", "Boden", "agricultural management", "crop rotation", "environmental monitoring", "interpolation", "seasonal variation", "biological development", "elevation", "land use", "meteorological geographical features", "geographical grid systems", "Germany"], "contacts": [{"name": "Markus M\u00f6ller", "organization": "Julius K\u00fchn Institute (JKI) \u2013 Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Bundesallee 69, D-38116 Braunschweig, Germany", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "markus.moeller@julius-kuehn.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org", "protocol": null, "protocol_url": "", "name": "0000-0002-1918-7747", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Markus M\u00f6ller", "organization": "Julius K\u00fchn Institute (JKI) \u2013 Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Bundesallee 58, 38116 Braunschweig, Germany", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "markus.moeller@julius-kuehn.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": "https://orcid.org", "protocol": null, "protocol_url": "", "name": "0000-0002-1918-7747", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Leibniz Centre for Agricultural Landscape Research", "organization": "ZALF", "position": "Research Platform 'Data Analysis & Simulation' - Workgroup Research Data Management", "roles": ["publisher"], "phones": [{"value": "+49 33432 82 300"}], "emails": [{"value": "dataservice@zalf.de"}], "addresses": [{"deliveryPoint": ["Eberswalder Strasse 84"], "city": "M\u00fcncheberg", "administrativeArea": "Brandenburg", "postalCode": "15374", "country": "Germany"}], "links": [{"href": null}]}, {"name": "Henning, Gerstmann", "organization": "Federal Agency for Nature Conservation (BfN), Alte Messe 6, 04103 Leipzig", "position": null, "roles": ["researcher"], "phones": [{"value": null}], "emails": [{"value": "henning.gerstmann@bfn.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Peter, Horney", "organization": "Julius K\u00fchn Institute (JKI) \u2013 Federal Research Centre for Cultivated Plants, Institute for for Strategies and Technology Assessment, Stahnsdorfer Damm 81, 14532 Kleinmachnow, Germany", "position": null, "roles": ["dataCurator"], "phones": [{"value": null}], "emails": [{"value": "peter.horney@julius-kuehn.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"organization": "Julius K\u00fchn Institute (JKI) \u2013 Federal Research Centre for Cultivated Plants, Institute for Crop and Soil Science, Bundesallee 69, D-38116 Braunschweig, Germany", "roles": ["contributor"]}]}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=33aa2643-5018-4e31-8b88-c2eb0a7a56f8", "rel": "information"}, {"href": "https://metadata.bonares.de:443/smartEditor/preview/DOYs_interpolated.png", "name": "preview", "description": "Web image thumbnail (URL)", "protocol": "WWW:LINK-1.0-http--image-thumbnail", "rel": "preview"}, {"rel": "self", "type": "application/geo+json", "title": "33aa2643-5018-4e31-8b88-c2eb0a7a56f8", "name": "item", "description": "33aa2643-5018-4e31-8b88-c2eb0a7a56f8", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/33aa2643-5018-4e31-8b88-c2eb0a7a56f8"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-12-13T00:00:00Z"}}, {"id": "12046149-7555-411c-935c-e510552acb9d", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[13.32, 52.35], [13.32, 52.35], [13.32, 52.35], [13.32, 52.35], [13.32, 52.35]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "horticulture"}, {"id": "long-term experiments"}, {"id": "vegetable crops"}, {"id": "fertilization"}, {"id": "fertilizers"}, {"id": "soil types"}, {"id": "soil fertility"}, {"id": "soil organic carbon"}, {"id": "soil organic matter"}, {"id": "field crops"}, {"id": "crop management"}, {"id": "crop production"}, {"id": "crop rotation"}, {"id": "crop residues"}, {"id": "crop residue management"}, {"id": "crop yield"}, {"id": "nutrient balance"}, {"id": "nutrient management"}, {"id": "nutrient uptake"}, {"id": "nutrient use efficiency"}, {"id": "nutrient utilization"}, {"id": "nitrogen"}, {"id": "nitrogen balance"}, {"id": "nitrogen content"}, {"id": "nitrogen fertilizers"}, {"id": "nitrogen-use efficiency"}, {"id": "potassium"}, {"id": "phosphorus"}, {"id": "magnesium"}, {"id": "cucumbers"}, {"id": "Cucumis"}, {"id": "Cucumis sativus"}, {"id": "carrots"}, {"id": "Daucus carota"}, {"id": "cabbages"}, {"id": "Brassica oleracea var. capitata"}, {"id": "leeks"}, {"id": "Allium ampeloprasum"}, {"id": "celery"}, {"id": "Apium graveolens"}, {"id": "Apium graveolens var. rapaceum"}, {"id": "farmyard manure"}, {"id": "organic amendments"}, {"id": "organic fertilizers"}, {"id": "slurry"}, {"id": "bark mulches"}, {"id": "resource management"}, {"id": "Luvisols"}, {"id": "Fluvisols"}, {"id": "Phaeozems"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}, {"id": "agricultural management"}, {"id": "horticulture"}, {"id": "crop production"}, {"id": "crop rotation"}, {"id": "crop waste"}, {"id": "cultivation"}, {"id": "cultivation system"}, {"id": "cultivation method"}, {"id": "food production (agriculture)"}, {"id": "irrigation farming"}, {"id": "manure"}, {"id": "mineral fertiliser"}, {"id": "nitrogenous fertiliser"}, {"id": "organic fertiliser"}, {"id": "soil fertilisation"}, {"id": "soil fertility"}, {"id": "vegetable"}, {"id": "vegetable cultivation"}, {"id": "vegetable waste"}, {"id": "yield (agricultural)"}, {"id": "resource utilisation"}, {"id": "organic matter"}, {"id": "phosphate"}], "scheme": "GEMET - Concepts, version 2.4"}], "license": "CC BY", "rights": "Restrictions applied to assure the protection of privacy or intellectual property, and any special restrictions or limitations or warnings on using the resource or metadata. Reports, articles, papers, scientific and non - scientific works of any form, including tables, maps, or any other kind of output, in printed or electronic form, based in whole or in part on the data supplied, must contain an acknowledgement of the form: \"Data reused from the BonaRes Data Centre www.bonares.de. This data were created as part of the Other's research activities.\" Although every care has been taken in preparing and testing the data, the Other and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the Other and the BonaRes Data Centre accept any liability whatsoever for any error, missing data or omission in the data, or for any loss or damage arising from its use. The Other and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2024-08-27", "created": "2022-07-19", "language": "eng", "title": "50 years box plot experiment in Grossbeeren (1972 - 2022) - Factor 2. 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