{"type": "FeatureCollection", "features": [{"id": "10.5281/zenodo.7656722", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:24:37Z", "type": "Dataset", "title": "Data for: The effect of land-use change on soil C, N, P, and their stoichiometries: A global synthesis", "description": "Open Access<strong><em>Data description</em></strong> This dataset includes detailed information about five different types of land use change reported in \u201cThe effect of land-use change on soil C, N, P, and their stoichiometries: A global synthesis (Agriculture, Ecosystems and Environment; https://doi.org/10.1016/j.agee.2023.108402)\u201d. Lists of five different types of land use change 1) conversion of primary forest to cropland 2) conversion of primary forest to grassland 3) conversion of cropland to forest 4) conversion of grassland to forest 5) conversion of grassland to cropland Lists of detailed information Land use change (pre-LUC, post-LUC) Country, Location, Geographic position (Longitude, Latitude) Altitude (m) Climate zone Weather [rainfall (mm yr<sup>-1</sup>) and temperature (\u00b0C)] Reported time of change (years) Vegetation type (pre-LUC, post-LUC) Fertilizer (pre-LUC, post-LUC: type, application; change) Soil sampling depth (cm) Soil type [units, pre-LUC, post-LUC, change rate (%)] Soil pH, bulk density, CEC [units, pre-LUC, post-LUC, change rate (%)] Soil organic carbon [units, pre-LUC, post-LUC, change rate (%)] Soil total nitrogen [units, pre-LUC, post-LUC, change rate (%)] Soil total phosphorus [units, pre-LUC, post-LUC, change rate (%)] Soil C:N [units, pre-LUC, post-LUC, change rate (%)] Soil C:P [units, pre-LUC, post-LUC, change rate (%)] Soil N:P [units, pre-LUC, post-LUC, change rate (%)] Reference <em><strong>Data collection method</strong></em> We analyzed five different types of LUC: 1) conversion of primary forest to cropland, 2) conversion of primary forest to grassland, 3) conversion of cropland to forest, 4) conversion of grassland to forest, and 5) conversion of grassland to cropland. We classified primary forest as forest that had not previously been cleared and used for other land uses. The conversion of cropland or grassland to forest includes naturally generated and intentionally planted forest. Cropland is land used for growing agricultural crops and may include short pasture phases, and grassland is land used continuously for grazing purposes, but may include occasional and repeated pasture-renewal phases. While we tried to make categorical distinctions between these land-use types, land uses are often more fluid in practice, which may not always have been stated in the publications underlying our data compilation. When a paper reported both contents and stocks, we used the stock-based measure. We used reported stocks if the original work had already been corrected to equivalent soil mass (Ellert and Bettany, 1995) or if corrected stocks had been reported in previous reviews or meta-analyses (Don et al., 2011; Poeplau et al., 2011; Guo and Gifford, 2002). Where bulk-density correction had not been applied, we tried to make those corrections to estimate changes to equivalent soil mass if studies provided sufficient information on soil bulk density and depth, using the method of Zhang et al. (2004). If that was not possible, we used the reported SOC, TN, or TP contents. <em><strong>Acknowledgements</strong></em> We thank scientists who measured, analyzed, and published the data compiled for this study. We are especially grateful to Drs. Axel Don, Christopher Poeplau, Lex Bouwman, and Gaihe Yang, who provided their global meta-data through personal communication. D.-G.K. acknowledges support from the IAEA CRP D15020. M.U.F.K and L.L.L. were supported by the Strategic Science Investment Fund (SSIF) of New Zealand\u2019s Ministry of Business, Innovation and Employment.", "keywords": ["2. Zero hunger", "13. Climate action", "land-use change", " greenhouse gas emissions", " soil", " carbon", " nitrogen", " phosphorus", " stoichiometry", " time", " temperature", " rainfall", " forest type", "15. Life on land"]}, "links": [{"href": "https://doi.org/10.5281/zenodo.7656722"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.7656722", "name": "item", "description": "10.5281/zenodo.7656722", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.7656722"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-02-20T00:00:00Z"}}, {"id": "10.1016/j.njas.2011.05.002", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:17:14Z", "type": "Journal Article", "created": "2011-06-27", "title": "Life Cycle Analysis Of Greenhouse Gas Emissions From Organic And Conventional Food Production Systems, With And Without Bio-Energy Options", "description": "AbstractThe Nafferton Factorial Systems Comparison experiments were begun in 2003 to provide data on the production and quality effects of a whole spectrum of different crop production systems ranging from fully conventional to fully organic. In this paper, the crop production data for the first 4 years of the experiments have been used to conduct a life cycle analysis of the greenhouse gas (GHG) emissions from organic and conventional production systems. Actual yield and field activity data from two of the treatments in the experiments (a stocked organic system and a stockless conventional system) were used to determine the GHG emissions per hectare and per MJ of human food energy produced, using both the farm gate and wider society as system boundaries. Emissions from these two baseline scenarios were compared with six other modelled scenarios: conventional stocked system, a stockless system where all crop residues were incorporated into the soil, two stocked systems where manure was used for biogas production, and two stockless systems where all crop residues were removed from the field and used for bio-energy production. Changing the system boundary from the farm gate to wider society did not substantially alter the GHG emissions per hectare of land when organic production methods were used; however, in conventional systems, which rely on more off-farm inputs, emissions were much greater per hectare when societal boundaries were used. Incorporating on-farm bioenergy production into the system allowed GHG emissions to be offset by energy generation. In the case of the organic system that included pyrolysis of crop residues, net GHG emissions were negative, indicating that energy offsets and sequestration of C in biochar can completely offset emissions of GHG from food production. The analysis demonstrates the importance of considering system boundaries and the end use of all agricultural products when conducting life cycle analyses of food production systems.", "keywords": ["2. Zero hunger", "Carbon sequestration", "Organic farming", "0211 other engineering and technologies", "Plant Science", "02 engineering and technology", "15. Life on land", "Development", "7. Clean energy", "6. Clean water", "12. Responsible consumption", "Mixed farming", "13. Climate action", "11. Sustainability", "Greenhouse gas emissions", "Crop production systems", "0202 electrical engineering", " electronic engineering", " information engineering", "Animal Science and Zoology", "Off-farm inputs", "Life cycle analysis", "Agronomy and Crop Science", "Food Science"]}, "links": [{"href": "https://doi.org/10.1016/j.njas.2011.05.002"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/NJAS%3A%20Wageningen%20Journal%20of%20Life%20Sciences", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1016/j.njas.2011.05.002", "name": "item", "description": "10.1016/j.njas.2011.05.002", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.njas.2011.05.002"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2011-12-01T00:00:00Z"}}, {"id": "10.1007/s00374-015-1004-5", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:15:03Z", "type": "Journal Article", "created": "2015-03-18", "title": "Biochar Alters Nitrogen Transformations But Has Minimal Effects On Nitrous Oxide Emissions In An Organically Managed Lettuce Mesocosm", "description": "Open AccessISSN:1432-0789", "keywords": ["Functional gene abundance", "2. Zero hunger", "Mineralization", "Organic farming", "13. Climate action", "Greenhouse gas emissions", "0401 agriculture", " forestry", " and fisheries", "04 agricultural and veterinary sciences", "Lettuce", "15. Life on land", "Nitrification", "Mineralization; Nitrification; Functional gene abundance; Lettuce; Organic farming; Greenhouse gas emissions"]}, "links": [{"href": "https://doi.org/10.1007/s00374-015-1004-5"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Biology%20and%20Fertility%20of%20Soils", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1007/s00374-015-1004-5", "name": "item", "description": "10.1007/s00374-015-1004-5", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1007/s00374-015-1004-5"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2015-03-19T00:00:00Z"}}, {"id": "10.1016/j.agee.2022.108182", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:16:02Z", "type": "Journal Article", "created": "2022-09-21", "title": "Liming modifies greenhouse gas fluxes from soils: A meta-analysis of biological drivers", "description": "<p>Acidic soils cover about 30% of the world's land. Liming is a management practice applied worldwide to reduce the negative effects of acidification on soil fertility and plant growth. Liming also affects the biotic and abiotic soil properties controlling the production and consumption of the greenhouse gases (GHGs) carbon dioxide (CO<sub>2</sub>), nitrous oxide (N<sub>2</sub>O) and methane (CH<sub>4</sub>). Although our understanding of how liming regulates net GHG emissions is increasing, the impact of liming on soil biological drivers of GHG emissions has not been quantitatively synthesized. Here we conducted a global meta-analysis using 1474 paired observations from 124 studies to explore the responses of GHG emissions to liming, with a focus on soil biological factors. We show that the N<sub>2</sub>O mitigation capacity of liming could be linked to (i) increases in bacterial abundance of N<sub>2</sub>O reductase genes (NosZ) and decreases in fungi:bacteria ratio, both contributing to a lower N<sub>2</sub>O:N<sub>2</sub> product ratio of denitrification; and (ii) reductions in soil mineral nitrogen (N) via stimulation of plant N uptake. The limited evidence available indicates that liming reduced CH<sub>4</sub> emissions and the abundance of methanogens, but it had no effect on CH<sub>4</sub> uptake and abundance of methanotrophs. Liming-induced increases in soil CO<sub>2</sub> emissions can be explained by higher heterotrophic and/or autotrophic respiration. The strong coupling between liming effects on GHG emissions and on soil microbial communities involved in GHG production and consumption can be used to identify strategies to reduce GHGs in response to liming, and to improve process-based models for better predictions of soil GHG emissions.</p>", "keywords": ["2. Zero hunger", "Biological drivers", "04 agricultural and veterinary sciences", "15. Life on land", "Nitrification", "01 natural sciences", "6. Clean water", "13. Climate action", "Greenhouse gas emissions", "11. Sustainability", "Denitrification", "0401 agriculture", " forestry", " and fisheries", "Liming", "Soil acidification", "0105 earth and related environmental sciences"]}, "links": [{"href": "https://doi.org/10.1016/j.agee.2022.108182"}, {"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.2022.108182", "name": "item", "description": "10.1016/j.agee.2022.108182", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.agee.2022.108182"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2022-12-01T00:00:00Z"}}, {"id": "10.1016/j.agee.2024.109178", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:16:02Z", "type": "Journal Article", "created": "2024-07-18", "title": "Increased N2O emissions by cover crops in a diverse crop rotation can be mediated with dual nitrification and urease inhibitors", "description": "Agriculture significantly contributes to global soil nitrous oxide (N2O) emissions. Crop rotation diversification and cover cropping are feasible agronomic strategies to reduce nitrogen losses to the environment. However, input of cover crop residues could potentially increase soil N2O emissions. Dual nitrification and urease inhibitors (NUI) administered after cover crop termination at the time of nitrogen fertiliser addition could reduce emissions, but this has not been widely evaluated in field studies. A 4-year crop rotation study was conducted to determine the effect of crop diversification and use of NUI on N2O emissions, crop yield and N2O intensity. Nitrous oxide flux was measured year-round using a micrometeorological method deployed on four 4-ha fields. Two fields were managed with a conventional crop rotation (CONV) (corn \u2013 soybean \u2013 soybean) and two fields were managed with a diverse crop rotation (DIV) (corn \u2013 soybean \u2013 winter-wheat plus cover crops either as 2-species mixture under seeded to corn or 4-species mixture after winter-wheat harvest). The effect of a NUI [N(-n-Butyl) thiophosphoric triamide and Pronitridine] was tested in corn in the fourth year. The DIV rotation resulted in 43 % lower annual N2O emissions when winter wheat was grown instead of soybean and 18\u201326 % increase in annual N2O emissions for corn. The DIV rotation increased N2O intensity by 15 % in Year 1 and 36 % in Year 4 compared to corn in the CONV rotation. The use of NUI in DIV rotation resulted in 15 % lower total N2O emissions over 3 years of the rotation cycle. The application of NUI resulted in a 19 % reduction in N2O intensity within the DIV rotation, with no observable effect on corn yield. Further research should focus on optimising the N application rates according to NUI use, considering available nitrogen from crop residues and cover crops when integrated into the crop rotation.", "keywords": ["2. Zero hunger", "Micrometeorological method", "Nitrogen use efficiency", "Corn-soybean rotation", "Mitigation", "13. Climate action", "Greenhouse gas emissions", "15. Life on land"]}, "links": [{"href": "https://doi.org/10.1016/j.agee.2024.109178"}, {"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.2024.109178", "name": "item", "description": "10.1016/j.agee.2024.109178", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.agee.2024.109178"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-10-01T00:00:00Z"}}, {"id": "10.1016/j.agwat.2022.107941", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:16:07Z", "type": "Journal Article", "created": "2022-09-27", "title": "Decreased greenhouse gas intensity of winter wheat production under plastic film mulching in semi-arid areas", "description": "<p>Greenhouse gas intensity (GHGI), the evaluation of GHG emissions per unit yield rather than per unit land area, has recently received much attention. Plastic film mulching (PFM) is one of the major agricultural practices in semi-arid areas, but few studies have synthetically studied the effects of PFM on GHGI, grain yield, soil characteristics, and their potential relationships at different winter wheat (Triticum aestivum L.) growing stages. Here in the semi-arid Chinese Loess Plateau, we simultaneously investigated two cropping systems from 2018 to 2020: PFM with 100 % cover and no film mulching (control). Averaged across two growing seasons, the PFM treatment significantly increased soil temperature, water-filled pore spaces and soil water storage, while sustaining high aboveground biomass (31.9 %) and grain yield (45.5 %). The PFM treatment significantly increased cumulative N<sub>2</sub>O emissions by 56.2 %, CO<sub>2</sub> emissions by 39.7 %, and CH<sub>4</sub> uptake by 151.4 % compared to the control treatment. GHGI are on average 14.2 % lower in the PFM treatment than in the control treatment. Moreover, the PFM treatment significantly improved soil enzyme activities (alkaline phosphatase, catalase, invertase, and urease) and microbial biomass carbon and nitrogen from grain filling to maturity stage. Altogether, the reductions in GHGI suggest that PFM-induced increases in grain yield could outweigh the adverse impacts on GHG emissions, underscoring the potential to apply PFM for sustainable intensification of crop production in semi-arid areas.</p>", "keywords": ["2. Zero hunger", "Loess Plateau", "13. Climate action", "Global warming potential", "Greenhouse gas emissions", "Grain yield", "15. Life on land", "Greenhouse gas intensity", "6. Clean water", "12. Responsible consumption"]}, "links": [{"href": "https://doi.org/10.1016/j.agwat.2022.107941"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agricultural%20Water%20Management", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1016/j.agwat.2022.107941", "name": "item", "description": "10.1016/j.agwat.2022.107941", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.agwat.2022.107941"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2022-12-01T00:00:00Z"}}, {"id": "10.1016/j.apenergy.2012.07.023", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:16:08Z", "type": "Journal Article", "created": "2012-08-30", "title": "Ghg Emission Performance Of Various Liquid Transportation Biofuels In Finland In Accordance With The Eu Sustainability Criteria", "description": "The European Union (EU) has set a binding greenhouse gas (GHG) emission reduction target for transportation biofuels and other bioliquids. In this study, the GHG emissions of various biofuel chains considered as relevant in large-scale production in Finland were calculated in accordance with the EU sustainability criteria. Special attention was paid to uncertainties and the sensitivities of certain parameters. According to the results, it is impossible in many cases to unambiguously conclude whether or not a biofuel chain passes the emission-saving limit provided by the EU. This may reduce the willingness to invest in biofuel production. Major sources of uncertainties and sensitivities are nitrous oxide emissions from soil and nitrogen fertilisation, emissions of process heat production and soil carbon stock changes in biomass production. Several propositions are made in order to reduce the uncertainty of the results and to make the EU sustainability criteria for biofuels more harmonised and accurate", "keywords": ["330", "greenhouse gas emissions", "Ys", "0211 other engineering and technologies", "02 engineering and technology", "kest\u00e4vyyskriteerit", "ep\u00e4varmuus", "7. Clean energy", "biofuels", "12. Responsible consumption", "liikennebiopolttoaineet", "EU sustainability criteria", "kasvihuonekaasup\u00e4\u00e4st\u00f6t", "uncertainly", "13. Climate action", "11. Sustainability", "SDG 13 - Climate Action", "0202 electrical engineering", " electronic engineering", " information engineering", "sustainability criteria", "SDG 7 - Affordable and Clean Energy", "transportation biofuels", "biopolttoaineet", "uncertainty", "ta218"]}, "links": [{"href": "https://doi.org/10.1016/j.apenergy.2012.07.023"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Applied%20Energy", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1016/j.apenergy.2012.07.023", "name": "item", "description": "10.1016/j.apenergy.2012.07.023", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.apenergy.2012.07.023"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2013-02-01T00:00:00Z"}}, {"id": "10.1016/j.enpol.2012.02.051", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:16:36Z", "type": "Journal Article", "created": "2012-03-17", "title": "Correcting A Fundamental Error In Greenhouse Gas Accounting Related To Bioenergy", "description": "Open AccessISSN:0301-4215", "keywords": ["Bioenergy; Greenhouse gas emissions; Greenhouse gas accounting", "0211 other engineering and technologies", "Greenhouse gas accounting", "02 engineering and technology", "Management", " Monitoring", " Policy and Law", "15. Life on land", "7. Clean energy", "12. Responsible consumption", "Viewpoint", "Energy(all)", "13. Climate action", "Greenhouse gas emissions", "11. Sustainability", "ddc:550", "0202 electrical engineering", " electronic engineering", " information engineering", "greenhouse gas; bioenergy; sustainable development", "Bioenergy"]}, "links": [{"href": "https://doi.org/10.1016/j.enpol.2012.02.051"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Energy%20Policy", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1016/j.enpol.2012.02.051", "name": "item", "description": "10.1016/j.enpol.2012.02.051", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.enpol.2012.02.051"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2012-06-01T00:00:00Z"}}, {"id": "10.1016/j.scitotenv.2023.165421", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:17:25Z", "type": "Journal Article", "created": "2023-07-18", "title": "Soil GHG dynamics after water level rise \u2013 Impacts of selection harvesting in peatland forests", "description": "Managed boreal peatlands are widespread and economically important, but they are a large source of greenhouse gases (GHGs). Peatland GHG emissions are related to soil water-table level (WT), which controls the vertical distribution of aerobic and anaerobic processes and, consequently, sinks and sources of GHGs in soils. On forested peatlands, selection harvesting reduces stand evapotranspiration and it has been suggested that the resulting WT rise decreases soil net emissions, while the tree growth is maintained. We monitored soil concentrations of CO2, CH4, N2O and O2 by depth down to 80\u00a0cm, and CO2 and CH4 fluxes from soil in two nutrient-rich Norway spruce dominated peatlands in Southern Finland to examine the responses of soil GHG dynamics to WT rise. Selection harvesting raised WT by 14\u00a0cm on both sites, on average, mean WTs of the monitoring period being 73\u00a0cm for unharvested control and 59\u00a0cm for selection harvest. All soil gas concentrations were associated with proximity to WT. Both CH4 and CO2 showed remarkable vertical concentration gradients, with high values in the deepest layer, likely due to slow gas transfer in wet peat. CH4 was efficiently consumed in peat layers near and above WT where it reached sub-atmospheric concentrations, indicating sustained oxidation of CH4 from both atmospheric and deeper soil origins also after harvesting. Based on soil gas concentration data, surface peat (top 25/30\u00a0cm layer) contributed most to the soil-atmosphere CO2 fluxes and harvesting slightly increased the CO2 source in deeper soil (below 45/50\u00a0cm), which could explain the small CO2 flux differences between treatments. N2O production occurred above WT, and it was unaffected by harvesting. Overall, the WT rise obtained with selection harvesting was not sufficient to reduce soil GHG emissions, but additional hydrological regulation would have been needed.", "keywords": ["550", "218 Environmental engineering", "Forestry", "216", "15. Life on land", "Soil greenhouse gas emissions", "ta4112", "Continuous cover forestry", "13. Climate action", "218", "Gradient method", "216 Materials engineering", "11. Sustainability", "Peatland hydrology", "Norway spruce mire", "Climate smart forestry"]}, "links": [{"href": "https://doi.org/10.1016/j.scitotenv.2023.165421"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Science%20of%20The%20Total%20Environment", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1016/j.scitotenv.2023.165421", "name": "item", "description": "10.1016/j.scitotenv.2023.165421", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1016/j.scitotenv.2023.165421"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-11-01T00:00:00Z"}}, {"id": "10.1080/09064710.2012.751451", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:18:56Z", "type": "Journal Article", "created": "2012-11-23", "title": "Regional Greenhouse Gas Emissions From Cultivation Of Winter Wheat And Winter Rapeseed For Biofuels In Denmark", "description": "Abstract Biofuels from bioenergy crops may substitute a significant part of fossil fuels in the transport sector where, e.g., the European Union has set a target of using 10% renewable energy by 2020. Savings of greenhouse gas emissions by biofuels vary according to cropping systems and are influenced by such regional factors as soil conditions, climate and input of agrochemicals. Here we analysed at a regional scale the greenhouse gas (GHG) emissions associated with cultivation of winter wheat for bioethanol and winter rapeseed for rapeseed methyl ester (RME) under Danish conditions. Emitted CO2 equivalents (CO2eq) were quantified from the footprints of CO2, CH4 and N2O associated with cultivation and the emissions were allocated between biofuel energy and co-products. Greenhouse gas emission at the national level (Denmark) was estimated to 22.1 g CO2eq MJ\u22121 ethanol for winter wheat and 26.0 g CO2eq MJ\u22121 RME for winter rapeseed. Results at the regional level (level 2 according to the Nomenclature of Terr...", "keywords": ["2. Zero hunger", "carbon footprint", "greenhouse gas emissions", "Nitrous Oxide", "cropping systems", "15. Life on land", "7. Clean energy", "01 natural sciences", "biofuels", "12. Responsible consumption", "land-use change", "13. Climate action", "11. Sustainability", "0105 earth and related environmental sciences"]}, "links": [{"href": "https://doi.org/10.1080/09064710.2012.751451"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Acta%20Agriculturae%20Scandinavica%2C%20Section%20B%20-%20Soil%20%26amp%3B%20Plant%20Science", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1080/09064710.2012.751451", "name": "item", "description": "10.1080/09064710.2012.751451", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1080/09064710.2012.751451"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2013-04-01T00:00:00Z"}}, {"id": "10.1088/1748-9326/7/3/034006", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:19:01Z", "type": "Journal Article", "created": "2012-07-09", "title": "Climate Change, Water Security And The Need For Integrated Policy Development: The Case Of On-Farm Infrastructure Investment In The Australian Irrigation Sector", "description": "The Australian Government is currently addressing the challenge of increasing water scarcity through significant on-farm infrastructure investment to facilitate the adoption of new water-efficient pressurized irrigation systems. However, it is highly likely that conversion to these systems will increase on-farm energy consumption and greenhouse gas (GHG) emissions, suggesting potential conflicts in terms of mitigation and adaptation policies. This study explored the trade-offs associated with the adoption of more water efficient but energy-intensive irrigation technologies by developing an integrated assessment framework. Integrated analysis of five case studies revealed trade-offs between water security and environmental security when conversion to pressurized irrigation systems was evaluated in terms of fuel and energy-related emissions, except in cases where older hand-shift sprinkler irrigation systems were replaced. These results suggest that priority should be given, in implementing on-farm infrastructure investment policy, to replacing inefficient and energy-intensive sprinkler irrigation systems such as hand-shift and roll-line. The results indicated that associated changes in the use of agricultural machinery and agrochemicals may also be important. The findings of this study support the use of an integrated approach to avoid possible conflicts in designing national climate change mitigation and adaptation policies, both of which are being developed in Australia.", "keywords": ["irrigation technologies", "2. Zero hunger", "330", "greenhouse gas emissions", "9. Industry and infrastructure", "Australia", "04 agricultural and veterinary sciences", "15. Life on land", "water security", "01 natural sciences", "7. Clean energy", "333", "6. Clean water", "13. Climate action", "11. Sustainability", "0401 agriculture", " forestry", " and fisheries", "integrated trade-offs framework", "0105 earth and related environmental sciences"]}, "links": [{"href": "https://doi.org/10.1088/1748-9326/7/3/034006"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Environmental%20Research%20Letters", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1088/1748-9326/7/3/034006", "name": "item", "description": "10.1088/1748-9326/7/3/034006", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1088/1748-9326/7/3/034006"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2012-07-09T00:00:00Z"}}, {"id": "10.1111/j.1757-1707.2010.01033.x", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:19:47Z", "type": "Journal Article", "created": "2010-02-03", "title": "The Potential Of Miscanthus To Sequester Carbon In Soils: Comparing Field Measurements In Carlow, Ireland To Model Predictions", "description": "Abstract<p>Growing bioenergy crops such as Miscanthus has the potential to mitigate atmospheric carbon dioxide emissions by the replacement of fossil fuels and by storing carbon (C) in the soil due to land use change. Here we compare direct measurements of soil organic C fractions made in Carlow (Ireland) to model predictions made by RothC and a cohort model. Our results show that when Miscanthus is grown on land previously under arable agriculture, the soil organic C will increase to a level above that of native pasture, as Miscanthus organic material is shown to have a slow decomposition rate. In addition we demonstrate that for measured organic C, fractions of different lability are similar to the C pools used in RothC. Using the model predictions from RothC and Miscanthus yields from MISCANFOR, we predict that in Ireland, changing the land use from arable to Miscanthus plantations has the potential to store between 2 and 3\uffe2\uff80\uff83Mg\uffe2\uff80\uff83C\uffe2\uff80\uff83ha\uffe2\uff88\uff921\uffe2\uff80\uff83y\uffe2\uff88\uff921 depending on the crop yield and the initial soil organic C level.</p>", "keywords": ["2. Zero hunger", "550", "Miscanthus", "04 agricultural and veterinary sciences", "15. Life on land", "Soil carbon", "7. Clean energy", "01 natural sciences", "Energy crops", "Modelling", "13. Climate action", "Greenhouse gas emissions", "Climate change", "0401 agriculture", " forestry", " and fisheries", "0105 earth and related environmental sciences"]}, "links": [{"href": "https://doi.org/10.1111/j.1757-1707.2010.01033.x"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/GCB%20Bioenergy", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1111/j.1757-1707.2010.01033.x", "name": "item", "description": "10.1111/j.1757-1707.2010.01033.x", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1111/j.1757-1707.2010.01033.x"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2009-12-01T00:00:00Z"}}, {"id": "10.1111/j.1757-1707.2011.01118.x", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:19:48Z", "type": "Journal Article", "created": "2011-09-12", "title": "Energy Balances And Greenhouse Gas Emissions Of Palm Oil Biodiesel In Indonesia", "description": "Abstract<p>This study presents a cradle\uffe2\uff80\uff90to\uffe2\uff80\uff90gate assessment of the energy balances and greenhouse gas (GHG) emissions of Indonesian palm oil biodiesel production, including the stages of land\uffe2\uff80\uff90use change (LUC), agricultural phase, transportation, milling, biodiesel processing, and comparing the results from different farming systems, including company plantations and smallholder plantations (either out growers or independent growers) in different locations in Kalimantan and Sumatra of Indonesia. The findings demonstrate that there are considerable differences between the farming systems and the locations in net energy yields (43.6\uffe2\uff80\uff9349.2\uffc2\uffa0GJ\uffc2\uffa0t\uffe2\uff88\uff921\uffc2\uffa0biodiesel\uffc2\uffa0yr\uffe2\uff88\uff921) as well as GHG emissions (1969.6\uffe2\uff80\uff935626.4\uffc2\uffa0kg\uffc2\uffa0CO2eq\uffc2\uffa0t\uffe2\uff88\uff921 biodiesel\uffc2\uffa0yr\uffe2\uff88\uff921). The output to input ratios are positive in all cases. The largest GHG emissions result from LUC effects, followed by the transesterification, fertilizer production, agricultural production processes, milling, and transportation. Ecosystem carbon payback times range from 11 to 42\uffc2\uffa0years.</p>", "keywords": ["2. Zero hunger", "net energy yield", "palm oil biodiesel", "330", "greenhouse gas emissions", "ecosystem carbon payback time", "0211 other engineering and technologies", "02 engineering and technology", "15. Life on land", "7. Clean energy", "energy balances", "630", "12. Responsible consumption", "land-use change", "13. Climate action", "11. Sustainability", "0202 electrical engineering", " electronic engineering", " information engineering", "farming systems"]}, "links": [{"href": "https://doi.org/10.1111/j.1757-1707.2011.01118.x"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/GCB%20Bioenergy", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.1111/j.1757-1707.2011.01118.x", "name": "item", "description": "10.1111/j.1757-1707.2011.01118.x", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.1111/j.1757-1707.2011.01118.x"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2011-09-12T00:00:00Z"}}, {"id": "10.5061/dryad.0zpc86711", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:22:10Z", "type": "Dataset", "title": "Agroforestry carbon stocks and greenhouse gas emission rates in central Alberta, Canada", "description": "Open Access<strong>The  current dataset replaces a previous version and has been modified for  clarity and carefully reviewed for  accuracy.</strong>", "keywords": ["2. Zero hunger", "deadwood", "FOS: Agricultural sciences", "Sustainable agriculture", "15. Life on land", "12. Responsible consumption", "climate change mitigation", "sustainable agriculture", "soil organic carbon", "13. Climate action", "ecosystem carbon sequestration", "11. Sustainability", "agroforestry systems", "Greenhouse gas emissions"]}, "links": [{"href": "https://doi.org/10.5061/dryad.0zpc86711"}, {"rel": "self", "type": "application/geo+json", "title": "10.5061/dryad.0zpc86711", "name": "item", "description": "10.5061/dryad.0zpc86711", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5061/dryad.0zpc86711"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2022-07-25T00:00:00Z"}}, {"id": "10.2111/rem-d-13-00145.1", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:20:47Z", "type": "Journal Article", "created": "2014-05-13", "title": "Grazing Management, Season, And Drought Contributions To Near-Surface Soil Property Dynamics In Semiarid Rangeland", "description": "Grazing management effects on soil property dynamics are poorly understood. A study was conducted to assess effects of grazing management and season on soil property dynamics and greenhouse gas flux within semiarid rangeland. Grazing management treatments evaluated in the study included two permanent pastures differing in stocking rate (moderately and heavily grazed pastures) and a fertilized, heavily grazed crested wheatgrass (Agropyron desertorum [Fisch. ex. Link] Schult.) pasture near Mandan, North Dakota. Over a period of 3 yr, soil properties were measured in the spring, summer, and fall at 0\u20105 cm and 5\u201010 cm. Concurrent to soil-based measurements, fluxes of carbon dioxide, methane, and nitrous oxide were measured on 1-wk to 2-wk intervals and related to soil properties via stepwise regression. High stocking rate and fertilizer nitrogen (N) application within the crested wheatgrass pasture contributed to increased soil bulk density and extractable N, and decreased soil pH and microbial biomass compared to permanent pastures. Soil nitrate nitrogen tended to be greatest at peak aboveground biomass, whereas soil ammonium nitrogen was greatest in early spring. Drought conditions during the third year of the study contributed to nearly two-fold increases in extractable N under the crested wheatgrass pasture and the heavily grazed permanent pasture, but not the moderately grazed permanent pasture. Stepwise regression found select soil properties to be modestly related to soil\u2010atmosphere greenhouse gas fluxes, with model r 2 ranging from 0.09 to 0.76. Electrical conductivity was included most frequently in stepwise regressions and, accordingly, may serve as a useful screening indicator for greenhouse gas \u2018\u2018hot spots\u2019\u2019 in grazing land.", "keywords": ["Northern Plains", "2. Zero hunger", "electrical conductivity", "greenhouse gas emissions", "13. Climate action", "0401 agriculture", " forestry", " and fisheries", "soil acidification", "04 agricultural and veterinary sciences", "15. Life on land", "630", "6. Clean water", "12. Responsible consumption"]}, "links": [{"href": "https://doi.org/10.2111/rem-d-13-00145.1"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Rangeland%20Ecology%20%26amp%3B%20Management", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.2111/rem-d-13-00145.1", "name": "item", "description": "10.2111/rem-d-13-00145.1", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.2111/rem-d-13-00145.1"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2014-05-01T00:00:00Z"}}, {"id": "10.3389/fsoil.2023.1240930", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:21:35Z", "type": "Journal Article", "created": "2023-07-11", "title": "Editorial: Greenhouse gas measurements in underrepresented areas of the world", "description": "Open Access\u0645\u0642\u0627\u0644 \u062a\u062d\u0631\u064a\u0631\u064a Front. Soil Sci., 11 July 2023Sec. \u0627\u0644\u0643\u064a\u0645\u064a\u0627\u0621 \u0627\u0644\u062d\u064a\u0648\u064a\u0629 \u0644\u0644\u062a\u0631\u0628\u0629 \u0648\u0631\u0643\u0648\u0628 \u0627\u0644\u062f\u0631\u0627\u062c\u0627\u062a \u0627\u0644\u063a\u0630\u0627\u0626\u064a\u0629 \u0627\u0644\u0645\u062c\u0644\u062f 3 - 2023 | https://doi.org/10.3389/fsoil.2023.1240930", "keywords": ["Soil nutrients", "Mechanics and Transport in Unsaturated Soils", "representativeness", "Oceanography", "Greenhouse gas", "Environmental science", "climate change mitigation", "12. Responsible consumption", "Impact of Climate Change on Forest Wildfires", "Engineering", "greenhouse gases", "Soil water", "11. Sustainability", "TA703-712", "QD1-999", "Biology", "Civil and Structural Engineering", "Soil science", "2. Zero hunger", "Global and Planetary Change", "nitrous oxide", "Geography", "Ecology", "greenhouse gas emissions", "Global Forest Drought Response and Climate Change", "methane", "carbon dioxide", "Cycling", "Geology", "Forestry", "Engineering geology. Rock mechanics. Soil mechanics. Underground construction", "FOS: Earth and related environmental sciences", "Biogeochemistry", "15. Life on land", "6. Clean water", "livestock", "Chemistry", "climate change", "Global Emissions", "13. Climate action", "FOS: Biological sciences", "Environmental Science", "Physical Sciences", "Nutrient"]}, "links": [{"href": "https://doi.org/10.3389/fsoil.2023.1240930"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Frontiers%20in%20Soil%20Science", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.3389/fsoil.2023.1240930", "name": "item", "description": "10.3389/fsoil.2023.1240930", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.3389/fsoil.2023.1240930"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-07-11T00:00:00Z"}}, {"id": "10.3390/agriculture10110527", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:21:35Z", "type": "Journal Article", "created": "2020-11-05", "title": "Effect of Crop Residue Decomposition on Soil Aggregate Stability", "description": "<p>The decomposition of fresh crop residues added to soil for agricultural purposes is complex. This is due to different factors that influence the decomposition process. In field conditions, the incorporation of crop residues into soil does not always have a positive effect on aggregate stability. The aim of this study was to investigate the decomposition effects of residues from two different cover crops (Brassica napus var. oleifera and Secale cereale) and one main crop (wheat straw) on soil aggregate stability. A 105-day incubation experiment was conducted in which crop residues were mixed with sandy loam soil at a rate of 6 g C kg\uffe2\uff88\uff921 of soil. During the incubation, there were five water additions. The decomposition effects of organic matter on soil conditions during incubation were evaluated by determining the soil functional groups; carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4) emissions; soil microbial biomass carbon (MBC); and water-stable aggregates (WSA). The functional groups of the plant residues and the soil were analyzed using Fourier transform infrared spectroscopy (FTIR) and a double exponential model was used to estimate the decomposition rates. The results show that the decomposition rate of fresh organic materials was correlated with the soil functional groups and the C/N ratio. Oilseed rape and rye, with lower C/N ratios than wheat straw residues, had faster decomposition rates and higher CO2 and N2O emissions than wheat straw. The CO2 and N2O flush at the start of the experiment corresponded to a decrease of soil aggregate stability (from Day 3 to Day 10 for CO2 and from Day 19 to Day 28 for N2O emissions), which was linked to higher decomposition rates of the labile fraction. The lower decomposition rates contributed to higher remaining C (carbon) and higher soil aggregate stability. The results also show that changes in the soil functional groups due to crop residue incorporation did not significantly influence aggregate stability. Soil moisture (SM) negatively influenced the aggregate stability and greenhouse gas emissions (GHG) in all treatments (oilseed rape, rye, wheat straw, and control). Irrespective of the water addition procedure, rye and wheat straw residues had a positive effect on water-stable aggregates more frequently than oilseed rape during the incubation period. The results presented here may contribute to a better understanding of decomposition processes after the incorporation of fresh crop residues from cover crops. A future field study investigating the influence of incorporation rates of different crop residues on soil aggregate stability would be of great interest.</p>", "keywords": ["2. Zero hunger", "microbial biomass", "greenhouse gas emissions", "Agriculture (General)", "04 agricultural and veterinary sciences", "15. Life on land", "7. Clean energy", "6. Clean water", "S1-972", "decomposition rates", "13. Climate action", "11. Sustainability", "articles", "0401 agriculture", " forestry", " and fisheries", "cover crops", "aggregate stability"]}, "links": [{"href": "http://www.mdpi.com/2077-0472/10/11/527/pdf"}, {"href": "https://www.mdpi.com/2077-0472/10/11/527/pdf"}, {"href": "https://doi.org/10.3390/agriculture10110527"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agriculture", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.3390/agriculture10110527", "name": "item", "description": "10.3390/agriculture10110527", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.3390/agriculture10110527"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-11-05T00:00:00Z"}}, {"id": "10.3390/su10051403", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-23T16:21:54Z", "type": "Journal Article", "created": "2018-05-03", "title": "Effects Of Biochar On The Net Greenhouse Gas Emissions Under Continuous Flooding And Water-Saving Irrigation Conditions In Paddy Soils", "description": "<p>In this study, we investigated the greenhouse gas emission under different application of biochar in the conditions of continuous flooding and water-saving irrigation in paddy fields, whereas, plant and soil carbon sequestration were considered in the calculation of net greenhouse gas emissions. The emission rates of methane (CH4), carbon dioxide (CO2), and nitrous oxide (N2O) gases were simultaneously monitored once every 7\uffe2\uff80\uff9310 days using the closed-chamber method. As a whole, the net greenhouse gas emission in the water-saving irrigation was more than that of the continuous flooding irrigation conditions. Compared with the water-saving irrigation, the continuous flooding irrigation significantly increased the CH4 in the control (CK) and chemical fertilizer treatments (NPK). The CO2 emissions increased in each treatment of the water-saving irrigation condition, especially in the chemical fertilizer treatments (NPKFW). Similarly, the soil N2O emission was very sensitive to the water-saving irrigation condition. An interesting finding is that the biochar application in soils cut down the soil N2O emission more significantly than NPKFW in the water-saving irrigation condition while the effect of biochar increased under the continuous flooding irrigation condition.</p>", "keywords": ["2. Zero hunger", "13. Climate action", "11. Sustainability", "0401 agriculture", " forestry", " and fisheries", "04 agricultural and veterinary sciences", "biochar; water-saving irrigation; net greenhouse gas emissions; paddy soil", "6. Clean water", "12. Responsible consumption"]}, "links": [{"href": "http://www.mdpi.com/2071-1050/10/5/1403/pdf"}, {"href": "https://doi.org/10.3390/su10051403"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Sustainability", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.3390/su10051403", "name": "item", "description": "10.3390/su10051403", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.3390/su10051403"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2018-05-02T00:00:00Z"}}, {"id": "10.3390/su9061044", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-23T16:21:56Z", "type": "Journal Article", "created": "2017-06-22", "title": "Reducing Global Warming Potential Through Sustainable Intensification Of Basmati Rice-Wheat Systems In India", "description": "<p>This study examines the effects of tillage, residue management and cropping system intensification through the inclusion of green gram on the performance of the rice-wheat (RW) system in NW India. We hypothesized that zero tillage (ZT) with residue retention provides a means of sustainably intensifying the RW system through lower production costs and higher economic profitability, whilst at the same time minimizing soil and environmental trade-offs. To test this hypothesis, we evaluated six combinations of tillage, residue management and green gram integration in RW rotation in northwest Indo-Gangetic Plains (IGP) of India. Treatments included in the study were: rice and wheat under conventional tillage (CT) with and without green gram (CTR-CTW, CTR-CTW+GG), both crops under zero-tillage (ZT) with and without green gram (ZTR-ZTW-R, ZTR-ZTW-R+GG) and both crops under ZT plus residues with and without green gram (ZTR-ZTW+R, ZTR-ZTW+R+GG). Based on two consecutive years of data, the net return from the RW system was significantly higher in the ZT than CT systems. Methane emissions were only observed under flooded conditions in CT rice plots; otherwise, emissions were negligible in all other treatment combinations. N2O emissions were dictated by N fertilizer application with no other treatment effects. Overall, ZT with residue retention resulted in the lowest global warming potential (GWP) ranging from \uffe2\uff88\uff923301 to \uffe2\uff88\uff92823 kg CO2-eq ha\uffe2\uff88\uff921 year\uffe2\uff88\uff921 compared to 4113 to 7917 kg CO2-eq ha\uffe2\uff88\uff921 year\uffe2\uff88\uff921 in other treatments. Operational inputs (tillage, planting, and irrigation) and soil C sequestration had significant effects on total GWP. The water footprint of RW production system was about 29% less in CA-based system compared to CT-based systems. Our study concludes that ZTR-ZTW+R and ZTR-ZTW+R+GG in RW systems of northwestern IGP have the potential to be agronomically productive, economically viable with benefits also for the environment in terms of soil health and GHG emissions.</p>", "keywords": ["2. Zero hunger", "food security", "04 agricultural and veterinary sciences", "15. Life on land", "sustainability", "6. Clean water", "12. Responsible consumption", "climate change", "conservation agriculture; greenhouse gas emissions; carbon sequestration; methane; nitrous oxide; global warming potential", "13. Climate action", "greenhouse gases", "emission", "8. Economic growth", "0401 agriculture", " forestry", " and fisheries", "agriculture"]}, "links": [{"href": "http://www.mdpi.com/2071-1050/9/6/1044/pdf"}, {"href": "https://doi.org/10.3390/su9061044"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Sustainability", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10.3390/su9061044", "name": "item", "description": "10.3390/su9061044", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.3390/su9061044"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2017-06-21T00:00:00Z"}}, {"id": "10.5281/zenodo.14034735", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-23T16:23:22Z", "type": "Report", "title": "Rewetting of drained peatlands provides  permanent and fast GHG mitigation. EJP Soil Policy brief.", "description": "Summary for Policy brief  Greenhouse gas (GHG) emissions from drained peatlands are >100 Mt CO2 eq. annually in EU. In rewetting, water level is raised to mitigate emissions of CO2 and N2O from peat decomposition. Paludiculture is the practice of rewetting coupled with crop biomass harvest. Studies on paludiculture at selected sites showed: Raising the water table decreases peat decomposition, It is difficult to reach net carbon (C) sequestration, Biomass harvest does not necessarily compromise improvement in the C balance, High range of N2O emissions (from minor to high), Moderate CH4 emissions.", "keywords": ["ground water table", "EJP Soil", "rewetting", "greenhouse gas emissions", "greenhouse gas", "peatland", "paludiculture", "peat soil"], "contacts": [{"organization": "L\u00e5ng, Kristiina, van de Craats, Dani\u00ebl, Honkanen, Henri, Elsgaard, Lars, Hessel, Rudi, Kekkonen, Hanna, Larmola, Tuula, Leifeld, Jens, L\u00e6rke, Poul Erik, Rodriguez, Andres, Saarnio, Sanna, Zhao, Junbin,", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.14034735"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.14034735", "name": "item", "description": "10.5281/zenodo.14034735", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.14034735"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-06-10T00:00:00Z"}}, {"id": "10.5281/zenodo.15393410", "type": "Feature", "geometry": null, "properties": {"license": "unspecified", "updated": "2026-06-23T16:23:52Z", "type": "Report", "title": "Carbon Farming Mitigation Potential: Evaluating the mitigation potential (and uncertainties) of carbon farming practices", "description": "unspecifiedThis is the updated version of the old one (version 1.0)", "keywords": ["Carbon sequestration", "Environmental benefits", "Agricultural Systems", "Greenhouse gas emissions", "Mitigation potential", "Agricultural systems", "Carbon farming"]}, "links": [{"href": "https://doi.org/10.5281/zenodo.15393410"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.15393410", "name": "item", "description": "10.5281/zenodo.15393410", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.15393410"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-12-10T00:00:00Z"}}, {"id": "10.5281/zenodo.15393411", "type": "Feature", "geometry": null, "properties": {"license": "Open Access", "updated": "2026-06-23T16:23:52Z", "type": "Report", "title": "Carbon Farming Mitigation Potential: Evaluating the mitigation potential (and uncertainties) of carbon farming practices", "description": "Open AccessThis is the updated version of the old one (version 1.0)", "keywords": ["Carbon sequestration", "Environmental benefits", "Agricultural Systems", "Greenhouse gas emissions", "Mitigation potential", "Agricultural systems", "Carbon farming"]}, "links": [{"href": "https://doi.org/10.5281/zenodo.15393411"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.15393411", "name": "item", "description": "10.5281/zenodo.15393411", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.15393411"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-12-10T00:00:00Z"}}, {"id": "10.5281/zenodo.1566066", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:24:01Z", "type": "Dataset", "title": "N2O and CH4 fluxes/concentrations reported in Krauss et al. 2017", "description": "Open Access{'references': ['Krauss, M., Ruser, R., M u00fcller, T., Hansen, S., M u00e4der, P., Gattinger, A. (2017) Impact of reduced tillage on greenhouse gas emissions and soil carbon stocks in an organic grass-clover ley - winter wheat cropping sequence. Agriculture, Ecosystems &amp; Environment, 239, p. 324-333']}", "keywords": ["2. Zero hunger", "nitrous oxide", " methane", " greenhouse gas emissions", " conservation tillage", " organic farming", "13. Climate action", "11. Sustainability", "12. Responsible consumption"], "contacts": [{"organization": "Krauss, Maike", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.1566066"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.1566066", "name": "item", "description": "10.5281/zenodo.1566066", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.1566066"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2018-11-27T00:00:00Z"}}, {"id": "10.5281/zenodo.15850279", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:24:04Z", "type": "Dataset", "title": "Dataset of \"Effects of biochar, hydrochar and nitrogen fertilization on greenhouse gas fluxes, soil organic carbon pools, and biomass yield of a boreal legume grassland\"", "description": "These data are available to public for their broader use. Any concerns or questions or missing information about the data could be answered or made available upon contacting the corresponding author or data creator.", "keywords": ["Biochar", "Greenhouse gas emissions", "Denitrification", "Sustainable agriculture", "Grassland ecosystem", "Nitrogen cycle", "Nitrification", "Soil Microbiology", "Boreal soil"], "contacts": [{"organization": "Bhattarai, Hem Raj", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.5281/zenodo.15850279"}, {"rel": "self", "type": "application/geo+json", "title": "10.5281/zenodo.15850279", "name": "item", "description": "10.5281/zenodo.15850279", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.5281/zenodo.15850279"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2025-07-09T00:00:00Z"}}, {"id": "10.7910/DVN/9BGO2X", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:25:29Z", "type": "Dataset", "created": "2016-01-01", "title": "Replication Data for: Reducing losses but failing to sequester carbon in soils \u2013 the case of Conservation Agriculture and Integrated Soil Fertility Management in the humid tropical agro-ecosystem of Western Kenya", "description": "Soil organic carbon content of topsoil (0-15 cm depths) of two agronomic long-term trial (CT1 and INM3), collected repeatedly throughout the years", "keywords": ["Agricultural Sciences", "Conservation agriculture", "Soil organic carbon", "soil fertility", "conservation", "Soil fertility", "climate change mitigation", "soil organic carbon", "4p1000", "Climate change mitigation", "climate change", "Earth and Environmental Sciences", "greenhouse gases", "Greenhouse gas emissions", "Africa", "Climate change", "Agroecosystems and Sustainable Landscapes - ASL", "C-sink"], "contacts": [{"organization": "Sommer, Rolf, Paul, Birthe, Kihara, Job, Mukalama, John,", "roles": ["creator"]}]}, "links": [{"href": "https://doi.org/10.7910/DVN/9BGO2X"}, {"rel": "self", "type": "application/geo+json", "title": "10.7910/DVN/9BGO2X", "name": "item", "description": "10.7910/DVN/9BGO2X", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10.7910/DVN/9BGO2X"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2018-01-01T00:00:00Z"}}, {"id": "10138/564434", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:25:35Z", "type": "Journal Article", "created": "2023-07-18", "title": "Soil GHG dynamics after water level rise \u2013 Impacts of selection harvesting in peatland forests", "description": "Managed boreal peatlands are widespread and economically important, but they are a large source of greenhouse gases (GHGs). Peatland GHG emissions are related to soil water-table level (WT), which controls the vertical distribution of aerobic and anaerobic processes and, consequently, sinks and sources of GHGs in soils. On forested peatlands, selection harvesting reduces stand evapotranspiration and it has been suggested that the resulting WT rise decreases soil net emissions, while the tree growth is maintained. We monitored soil concentrations of CO2, CH4, N2O and O2 by depth down to 80\u00a0cm, and CO2 and CH4 fluxes from soil in two nutrient-rich Norway spruce dominated peatlands in Southern Finland to examine the responses of soil GHG dynamics to WT rise. Selection harvesting raised WT by 14\u00a0cm on both sites, on average, mean WTs of the monitoring period being 73\u00a0cm for unharvested control and 59\u00a0cm for selection harvest. All soil gas concentrations were associated with proximity to WT. Both CH4 and CO2 showed remarkable vertical concentration gradients, with high values in the deepest layer, likely due to slow gas transfer in wet peat. CH4 was efficiently consumed in peat layers near and above WT where it reached sub-atmospheric concentrations, indicating sustained oxidation of CH4 from both atmospheric and deeper soil origins also after harvesting. Based on soil gas concentration data, surface peat (top 25/30\u00a0cm layer) contributed most to the soil-atmosphere CO2 fluxes and harvesting slightly increased the CO2 source in deeper soil (below 45/50\u00a0cm), which could explain the small CO2 flux differences between treatments. N2O production occurred above WT, and it was unaffected by harvesting. Overall, the WT rise obtained with selection harvesting was not sufficient to reduce soil GHG emissions, but additional hydrological regulation would have been needed.", "keywords": ["550", "218 Environmental engineering", "Forestry", "216", "15. Life on land", "Soil greenhouse gas emissions", "ta4112", "Continuous cover forestry", "13. Climate action", "218", "Gradient method", "216 Materials engineering", "11. Sustainability", "Peatland hydrology", "Norway spruce mire", "Climate smart forestry"]}, "links": [{"href": "https://doi.org/10138/564434"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Science%20of%20The%20Total%20Environment", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10138/564434", "name": "item", "description": "10138/564434", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10138/564434"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-11-01T00:00:00Z"}}, {"id": "10568/131171", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:25:51Z", "type": "Journal Article", "created": "2023-07-11", "title": "Editorial: Greenhouse gas measurements in underrepresented areas of the world", "description": "Open Access\u0645\u0642\u0627\u0644 \u062a\u062d\u0631\u064a\u0631\u064a Front. Soil Sci., 11 July 2023Sec. \u0627\u0644\u0643\u064a\u0645\u064a\u0627\u0621 \u0627\u0644\u062d\u064a\u0648\u064a\u0629 \u0644\u0644\u062a\u0631\u0628\u0629 \u0648\u0631\u0643\u0648\u0628 \u0627\u0644\u062f\u0631\u0627\u062c\u0627\u062a \u0627\u0644\u063a\u0630\u0627\u0626\u064a\u0629 \u0627\u0644\u0645\u062c\u0644\u062f 3 - 2023 | https://doi.org/10.3389/fsoil.2023.1240930", "keywords": ["Soil nutrients", "Mechanics and Transport in Unsaturated Soils", "representativeness", "Oceanography", "Greenhouse gas", "Environmental science", "climate change mitigation", "12. Responsible consumption", "Impact of Climate Change on Forest Wildfires", "Engineering", "greenhouse gases", "Soil water", "11. Sustainability", "TA703-712", "QD1-999", "Biology", "Civil and Structural Engineering", "Soil science", "2. Zero hunger", "Global and Planetary Change", "nitrous oxide", "Geography", "Ecology", "greenhouse gas emissions", "Global Forest Drought Response and Climate Change", "methane", "carbon dioxide", "Cycling", "Geology", "Forestry", "Engineering geology. Rock mechanics. Soil mechanics. Underground construction", "FOS: Earth and related environmental sciences", "Biogeochemistry", "15. Life on land", "6. Clean water", "livestock", "Chemistry", "climate change", "Global Emissions", "13. Climate action", "FOS: Biological sciences", "Environmental Science", "Physical Sciences", "Nutrient"]}, "links": [{"href": "https://doi.org/10568/131171"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Frontiers%20in%20Soil%20Science", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10568/131171", "name": "item", "description": "10568/131171", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10568/131171"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2023-07-11T00:00:00Z"}}, {"id": "10492/6396", "type": "Feature", "geometry": null, "properties": {"updated": "2026-06-23T16:25:50Z", "type": "Journal Article", "created": "2020-11-05", "title": "Effect of Crop Residue Decomposition on Soil Aggregate Stability", "description": "<?xml version='1.0' encoding='UTF-8'?><article><p>The decomposition of fresh crop residues added to soil for agricultural purposes is complex. This is due to different factors that influence the decomposition process. In field conditions, the incorporation of crop residues into soil does not always have a positive effect on aggregate stability. The aim of this study was to investigate the decomposition effects of residues from two different cover crops (Brassica napus var. oleifera and Secale cereale) and one main crop (wheat straw) on soil aggregate stability. A 105-day incubation experiment was conducted in which crop residues were mixed with sandy loam soil at a rate of 6 g C kg\u22121 of soil. During the incubation, there were five water additions. The decomposition effects of organic matter on soil conditions during incubation were evaluated by determining the soil functional groups; carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4) emissions; soil microbial biomass carbon (MBC); and water-stable aggregates (WSA). The functional groups of the plant residues and the soil were analyzed using Fourier transform infrared spectroscopy (FTIR) and a double exponential model was used to estimate the decomposition rates. The results show that the decomposition rate of fresh organic materials was correlated with the soil functional groups and the C/N ratio. Oilseed rape and rye, with lower C/N ratios than wheat straw residues, had faster decomposition rates and higher CO2 and N2O emissions than wheat straw. The CO2 and N2O flush at the start of the experiment corresponded to a decrease of soil aggregate stability (from Day 3 to Day 10 for CO2 and from Day 19 to Day 28 for N2O emissions), which was linked to higher decomposition rates of the labile fraction. The lower decomposition rates contributed to higher remaining C (carbon) and higher soil aggregate stability. The results also show that changes in the soil functional groups due to crop residue incorporation did not significantly influence aggregate stability. Soil moisture (SM) negatively influenced the aggregate stability and greenhouse gas emissions (GHG) in all treatments (oilseed rape, rye, wheat straw, and control). Irrespective of the water addition procedure, rye and wheat straw residues had a positive effect on water-stable aggregates more frequently than oilseed rape during the incubation period. The results presented here may contribute to a better understanding of decomposition processes after the incorporation of fresh crop residues from cover crops. A future field study investigating the influence of incorporation rates of different crop residues on soil aggregate stability would be of great interest.</p></article>", "keywords": ["2. Zero hunger", "microbial biomass", "greenhouse gas emissions", "Agriculture (General)", "04 agricultural and veterinary sciences", "15. Life on land", "7. Clean energy", "6. Clean water", "S1-972", "decomposition rates", "13. Climate action", "11. Sustainability", "articles", "0401 agriculture", " forestry", " and fisheries", "cover crops", "aggregate stability"]}, "links": [{"href": "http://www.mdpi.com/2077-0472/10/11/527/pdf"}, {"href": "https://www.mdpi.com/2077-0472/10/11/527/pdf"}, {"href": "https://doi.org/10492/6396"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/Agriculture", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "10492/6396", "name": "item", "description": "10492/6396", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/10492/6396"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2020-11-05T00:00:00Z"}}, {"id": "605db9d5-b7ca-4e75-ac18-949a130587b3", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[6.53, 49.03], [6.53, 53.49], [13.49, 53.49], [13.49, 49.03], [6.53, 49.03]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "greenhouse gas emissions"}, {"id": "land use change"}, {"id": "alley cropping"}, {"id": "carbon sequestration"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}, {"id": "land use classification"}], "scheme": "GEMET - Concepts, version 2.4"}], "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 - BonaRes - SIGNAL's research activities.\" Although every care has been taken in preparing and testing the data, the BonaRes Module A-Project - BonaRes - SIGNAL and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the BonaRes Module A-Project - BonaRes - SIGNAL 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 - BonaRes - SIGNAL and BonaRes Data Centre will not be responsible for any direct or indirect use which might be made of the data.", "updated": "2023-04-14", "type": "Dataset", "created": "2023-02-27", "language": "eng", "title": "Soil CO2 and CH4 fluxes in cropland agroforestry and monoculture systems", "description": "This data set includes data on soil Soil CO2 and CH4 fluxes, soil temperature, water-filled pore space, and mineral N (NH4+ and NO3-) measured at three sites in Germany, where the agroforestry systems combined crop rows and hybrid poplar short rotation coppices. We systematically compared soil Soil CO2 and CH4 fluxes between cropland agroforestry and monoculture systems over two years following different crop rotations and fertilization rates at each site. Each site is represented by 4 replicates per land use, at the following distances from the tree row for agroforestry: 1 m, 7 m and 24 m. Research domain: Soil Sciences Research question: In present, no systematic comparison was conducted of soil Soil CO2 and CH4 fluxes between cropland agroforestry and monoculture systems in temperate Europe\n\nResearch domain: Soil Sciences\n\nResearch question: Agroforestry system is gaining increasing interests due to its potential to enhance carbon (C) sequestration and mitigate greenhouse gas (GHG) emissions in agriculture. 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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 BonaRes Module A-Project - SIGNAL's research activities.\" Although every care has been taken in preparing and testing the data, the BonaRes Module A-Project - SIGNAL and the BonaRes Data Centre cannot guarantee that the data are correct; neither does the BonaRes Module A-Project - SIGNAL 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 - SIGNAL 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": "2021-11-03", "type": "Dataset", "created": "2021-09-14", "language": "eng", "title": "Gross N2O emission and uptake in cropland agroforestry and monoculture systems", "description": "This data set includes data on gross N2O emission and uptake measured by 15N2O pool dilution, net N2O flux, CO2 emission, soil temperature, water-filled pore space, mineral N (NH4+ and NO3-), microbial biomass N and C, and denitrification gene abundance (nirK, nirS, nosZ clade I and II) were measured on three sites in Germany in cropland agroforestry and monocultures. Each site is represented by 4 replicates per land use, at the following distances from the tree row for agroforestry: 1m, 7m and 24m.\n\nResearch domain: Soil Sciences\n\nResearch question:\nDoes agroforestry reduce gross N2O emission from the soil and increase gross N2O uptake from the atmosphere into the soil compared to monoculture system?\n\nDataset version: 1.0", "formats": [{"name": "CSV"}], "keywords": ["Soil", "agroforestry", "greenhouse gases", "isotope dilution method", "nitrous oxide", "denitrification", "arable soils", "agricultural soils", "greenhouse gas emissions", "monoculture", "Boden", "opendata"], "contacts": [{"name": "Jie Luo", "organization": "Georg-August-University of Goettingen, Soil Sciences of Tropical and Subtropical Ecosystems", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "jluo@gwdg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Edzo Veldkamp", "organization": "Georg-August-University of Goettingen, Soil Sciences of Tropical and Subtropical Ecosystems", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "eveldka@gwd.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "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}]}, {"name": "Edzo Veldkamp", "organization": "Georg-August-University of Goettingen, Soil Sciences of Tropical and Subtropical Ecosystems", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "eveldka@gwdg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Guodong Shao", "organization": "Georg-August-University of Goettingen, Soil Sciences of Tropical and Subtropical Ecosystems", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "sguadon@gwdg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Lukas Beule", "organization": "Julius K\u00fchn Institute (JKI)\u2014Federal Research Centre for Cultivated Plants, Institute for Ecological Chemistry, Plant Analysis and Stored Product Protection", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "lukas.beule@julius-kuehn.de"}], "addresses": [{"deliveryPoint": [null], "city": "Berlin", "administrativeArea": null, "postalCode": null, "country": "Germany"}], "links": [{"href": null}]}, {"name": "Marife D. Corre", "organization": "Georg-August-University of Goettingen, Soil Sciences of Tropical and Subtropical Ecosystems", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "mcorre@gwdg.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"organization": "Julius K\u00fchn Institute (JKI)\u2014Federal Research Centre for Cultivated Plants, Institute for Ecological Chemistry, Plant Analysis and Stored Product Protection;Georg-August-University of Goettingen, Soil Sciences of Tropical and Subtropical Ecosystems", "roles": ["contributor"]}]}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=4dd7c40f-0fb9-4229-aaee-408d118856f0", "rel": "information"}, {"href": "https://metadata.bonares.de:443/smartEditor/preview/thumbnail-to-graph-abstract.jpg", "name": "preview", "description": "Web image thumbnail (URL)", "protocol": "WWW:LINK-1.0-http--image-thumbnail", "rel": "preview"}, {"rel": "self", "type": "application/geo+json", "title": "4dd7c40f-0fb9-4229-aaee-408d118856f0", "name": "item", "description": "4dd7c40f-0fb9-4229-aaee-408d118856f0", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/4dd7c40f-0fb9-4229-aaee-408d118856f0"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2021-11-03T00:00:00Z"}}, {"id": "efed116f-d1d4-4947-85b9-a98b18421ab2", "type": "Feature", "geometry": {"type": "Polygon", "coordinates": [[[12.89, 53.88], [12.89, 53.88], [12.89, 53.88], [12.89, 53.88], [12.89, 53.88]]]}, "properties": {"themes": [{"concepts": [{"id": "farming"}], "scheme": "https://standards.iso.org/iso/19139/resources/gmxCodelists.xml#MD_TopicCategoryCode"}, {"concepts": [{"id": "Soil"}, {"id": "peatlands"}, {"id": "greenhouse gas emissions"}, {"id": "Typha"}], "scheme": "AGROVOC Multilingual agricultural thesaurus"}, {"concepts": [{"id": "opendata"}, {"id": "peatland rewetting"}, {"id": "fen"}, {"id": "automatic chamber"}, {"id": "cattail"}], "scheme": "Individual"}, {"concepts": [{"id": "Boden"}], "scheme": "GEMET - INSPIRE themes, version 1.0"}, {"concepts": [{"id": "Germany"}, {"id": "Mecklenbug-Vorpommern"}, {"id": "Mecklenburgische Seenplatte"}, {"id": "Dargun"}], "scheme": "individual"}], "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 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": "2025-01-27", "type": "Dataset", "created": "2025-01-20", "language": "eng", "title": "CO2 and CH4 automatic chamber measurenments", "description": "Drainage shifts peatlands from acting as a net C sink to a net C source. Despite that rewetting may potentially enhance CH4 emissions, it may also mitigate climate change by greatly reducing CO2 emissions. The speed at which the C sink function is achieved depends on the transition process, including the recolonization of typical vegetation significantly impacting C emissions. This study presents the results of five years of automatic chamber (AC) CH4 and CO2 measurements conducted in a rewetted fen in northeast Germany. Four ACs were placed along a spatial gradient from the shore to the center of a shallow lake after rewetting, followed by cattail colonization. Besides increased CO2 uptake, an intermediate phase with a strongly increased climatic effect due to wave-like increases-decreases in CH4 emissions occurred. It is therefore essential to take a close look at the transition phases to accurately assess climate impact of rewetting over time. This table contains the index of all tables forming this data collection.\n\nRelated datasets are listed in the metadata element 'Related Identifier'.\nDataset version 1.0", "formats": [{"name": "CSV"}], "keywords": ["Soil", "peatlands", "greenhouse gas emissions", "Typha", "opendata", "peatland rewetting", "fen", "automatic chamber", "cattail", "Boden", "Germany", "Mecklenbug-Vorpommern", "Mecklenburgische Seenplatte", "Dargun"], "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": "Danica Antonijevic", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "danica.antonijevic@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-8878-2208", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Mathias Hoffmann", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "mathias.hoffmann@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-2776-1403", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Maren Dubert", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "Maren.Dubbert@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-2352-8516", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Marten Schmidt", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "marten.schmidt@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Annette Prochnow", "organization": "Leibniz-Institute for Agricultural Engineering Potsdam-Bornim", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "aprochnow@atb-potsdam.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0003-3528-5272", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Dominik Zak", "organization": "Aarhus University", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "doz@ecos.au.dk"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-1229-5294", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Juergen Augustin", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "jaug@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-8560-2814", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Juergen Augustin", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "jaug@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-8560-2814", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"organization": "Aarhus University;Leibniz Centre for Agricultural Landscape Research;Leibniz-Institute for Agricultural Engineering Potsdam-Bornim", "roles": ["contributor"]}], "title_alternate": "Automatische CO2- und CH4-Kammer-Messungen"}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=efed116f-d1d4-4947-85b9-a98b18421ab2", "rel": "information"}, 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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 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": "2024-10-18", "type": "Dataset", "created": "2024-08-26", "language": "eng", "title": "Small-scale heterogeneity of N2O emissions in a novel diversified agricultural landscape", "description": "Analysis of the small-scale heterogeneity in N\u2082O emissions across a two-year period and six crop rotations.\n\nRelated datasets are listed in the metadata element 'Related Identifier'.\nDataset version 1.0", "formats": [{"name": "CSV"}], "keywords": ["Soil", "greenhouse gas emissions", "nitrites", "opendata", "N2O emissions", "soil heterogenity", "Boden", "Germany", "Brandenburg", "M\u00e4rkisch-Oderland", "Focus Area M\u00fcncheberg", "patchCROP"], "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": "Isabel Zentgraf", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "Isabel.zentgraf@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0009-0003-4879-0099", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Maire Holz", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "maire.holz@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-1825-2308", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Oscar Monzon", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "oscar.monzon@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0009-0008-0228-8606", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Matthias L\u00fcck", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "Matthias.lueck@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Valerie Pusch", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "valierie.pusch@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": null}]}, {"name": "Katja Kramp", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "katja.kramp@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0003-4373-4699", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Mathias Hoffmann", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["author"], "phones": [{"value": null}], "emails": [{"value": "mathias.hoffmann@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "000-0002-2776-1403", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"name": "Maire Holz", "organization": "Leibniz Centre for Agricultural Landscape Research", "position": null, "roles": ["projectLeader"], "phones": [{"value": null}], "emails": [{"value": "maire.holz@zalf.de"}], "addresses": [{"deliveryPoint": [null], "city": null, "administrativeArea": null, "postalCode": null, "country": null}], "links": [{"href": {"url": null, "protocol": null, "protocol_url": "", "name": "0000-0002-1825-2308", "name_url": "", "description": "ORCID", "description_url": "", "applicationprofile": null, "applicationprofile_url": "", "function": null}}]}, {"organization": "Leibniz Centre for Agricultural Landscape Research", "roles": ["contributor"]}], "title_alternate": "Data collection: Part 0/3, table: Index table of the data collection"}, "links": [{"href": "https://maps.bonares.de/mapapps/resources/apps/bonares/index.html?lang=en&mid=7a47f479-ed0b-46a3-8422-6be819204602", "rel": "information"}, {"rel": "related", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/7a47f479-ed0b-46a3-8422-6be819204602", "name": "related record", "description": "related record", "type": "application/json"}, {"rel": "self", "type": "application/geo+json", "title": "7a47f479-ed0b-46a3-8422-6be819204602", "name": "item", "description": "7a47f479-ed0b-46a3-8422-6be819204602", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main/items/7a47f479-ed0b-46a3-8422-6be819204602"}, {"rel": "collection", "type": "application/json", "title": "Collection", "name": "collection", "description": "Collection", "href": "https://repository.soilwise-he.eu/cat/collections/metadata:main"}], "time": {"date": "2024-10-18T00:00:00Z"}}, {"id": "0d096f9b-ba14-4801-b395-634f0c8c9e25", "type": "Feature", "geometry": {"type": "Polygon", 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It describes and disseminates the geospatial data which underlie FAOSTAT statistics on drained organic soils. Particularly, this metadata includes the annual area drained by cropland and grazed grassland on organic soils (in ha) for the years 1992 \u2013 2018. The associate geospatial dataset is named Drained Organic Soils Area Annual (DROSA - A).\n\nOrganic soils are wet soils ecosystems, characterized by high levels of organic matter, which accumulates under the anoxic conditions that exist in the presence of water. They include tropical and boreal peatlands, high-latitude bogs, ferns and mires. While organic soils cover globally a mere 3 percent of the terrestrial land area, they represent up to 30 percent of the total soil carbon, playing an important role in maintaining the earth\u2019s carbon balance. 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