,The Agricultural Collaborative Research Outcomes System (AgCROS) is a growing “network of networks” that presently consists of multiple agricultural data networks: Nutrient Uptake and Outcome Network (NUOnet), the Greenhouse gas Reduction through Agricultural Carbon Enhancement Network (GRACEnet), Resilient Economic Agricultural Practices (REAP), Dairy Agriculture for People and the Planet (DAPP; Dairy Grand Challenge), Soil Health Assessment Network (SHAnet), Agricultural Antibiotic Resistance (AgAR), and the Long-Term Agroecosystem Research (LTAR) Network. By integrating these diverse database networks, AgCROS facilitates the flow of information and increases the cooperation among researchers participating in these networks.,,

,REAP (Resilient Economic Agricultural Practices), formerly known as the Renewable Energy Assessment Project, was initially organized to quantitatively assess the impacts of crop residue (e.g., corn stover) on soil properties. The project's current vision is to revitalize soil health and resiliency, thereby enabling soil resources to meet expanding societal demands while safe-guarding planetary health. Goals include 1) Identifying physical, chemical, or biological parameters and index tools that quantify management effects on carbon sequestration and soil health; 2) Conducting coordinated, quantitative multi-location comparisons of business as usual vs. improved management practices designed to enhance nutrient use efficiency and soil health; 3) Identification of critical indicators and index tools to quantify site-specific soil health and water quality effects; 4) Developing, expanding, and coordinating among ARS teams providing data and databases needed to sustainably supply cellulosic-based bioenergy feedstock and other national natural resource and agricultural challenges.,,

,GRACEnet (Greenhouse gas Reduction through Agricultural Carbon Enhancement network) is a research program initiated in the early 2000s . Goals are to better quantify greenhouse gas GHG emissions from cropped and grazed soils under current management practices and to identify and further develop improved management practices that will enhance carbon (C) sequestration in soils, decrease GHG emissions, promote sustainability and provide a sound scientific basis for carbon credits and GHG trading programs. This program generates information that is needed by agro-ecosystem modelers, producers, program managers and policy makers. Coordinated multi-location field studies follow standardized protocols to compare net GHG emissions (carbon dioxide, nitrous oxide, methane), C sequestration, crop/forge yields, and broad environmental benefits under different management systems that:,

전국의 토양시료를 채취 하고 분석 결과를 바탕으로 각 필지별로 작물재배에 필요한 적정 비료량 데이터 제공* 토양분석 (화학적 특성파악) : pH, 유기물, 질소, 인산, 칼륨, 마그네슘, 전기전도도, 규산 등

This project facilitated the implementation of a multiyear project to understand how climate variability and management practices influence soil microbial and nutrient dynamics within a no-till cotton production system with stubble management. Three fields at the R.N. Hooper farm in Petersburgh, TX were used for this project and continue to be monitored with funds from Cotton Inc. The three fields are center-pivot irrigated to compensate for rainfall variability as needed and depending upon water availability. The three fields were planted into the following crops for 2017 : Field 1 – corn following cotton; Field 2 – cotton following corn, and Field 3 – Wheat/mixed summer cover following wheat. The sizes of the three no-till and fields are: Field 1: 78.48 m in diameter, Field 2: 971.29 m in diameter, and Field 3: 781.1 m in diameter. The conventional field was located a few miles from the no-till fields and was also center-pivot irrigated when needed and managed as a tilled cotton production system with a corn -cotton rotations for the past five years. The no-tilled fields have been rotated among, cotton, corn, winter wheat and summer cover (when possible) for the past five years. Within each system we set soil moisture and temperatures sensors at the surface and at 15 cm depth and monitored microbial and nutrient dynamics across the year. Fields were instrumented in March 2017 and were monitored continuously except for harvesting and planting periods. Soil samples were taken initially in May 2017 and then each month from six plots established across each field. The following parameters were evaluated at each location and within each field: % soil moisture, Microbial Biomass Carbon, extractable levels of NO3-N and NH4-N and % Soil Organic Matter.

Export DataAccess API The Forest Monitoring Steering Committee commissioned a consortium between the NSW Department of Planning, Industry and Environment and the University of Sydney to deliver Baselines, Drivers and Trends for soil stability and health in forest catchments across the NSW Regional Forest Agreement areas. Find out more about the project here. Baseline Soil Maps: Digital Soil Modelling (DSM) outputs describing the baseline conditions of key indicators of soil condition, based on quantitative modelling techniques that relate known soil qualities with known environmental qualities and extrapolates using continuous environmental data. Metadata Portal Metadata Information Content TitleBaselines for Soil Health and Stability in NSW RFA Regions: Baseline Soil MapsContent TypeScene Layer/Scene Layer PackageDescription Digital Soil Modelling (DSM) outputs describing the baseline conditions of key indicators of soil condition, based on quantitative modelling techniques that relate known soil qualities with known environmental qualities and extrapolates using continuous environmental data.Initial Publication Date14/06/2022Data Currency14/06/2022Data Update FrequencyOtherContent SourceOtherFile TypeMap Feature ServiceAttributionData Theme, Classification or Relationship to other DatasetsAccuracySpatial Reference System (dataset)OtherSpatial Reference System (web service)OtherWGS84 Equivalent ToOtherSpatial ExtentContent LineageData ClassificationUnclassifiedData Access PolicyOpenData QualityTerms and ConditionsCreative CommonsStandard and SpecificationData CustodianNSW Natural Resources CommissionPoint of ContactEmma Pearce (Emma.Pearce@nrc.nsw.gov.au)Data AggregatorData DistributorSpatial VisionAdditional Supporting InformationTRIM Number

A workbook of all the soils data collected near Holton, Kansas, in agricultural fields. Laboratory analysis of soil properties was completed by Ward Labs in Kearny Nebraska. Isotope analysis of soils was completed in Integrated Stable Isotope Research Facility operated by US Environmental Protection Agency. The goal of this project was to evaluate if Soil Health Principles can reduce the risk of nitrate leaching from agricultural fields. This effort was a collaborative project between EPA Region 7, EPA Office of Research and Development, and Kansas Department of Health and Environment (KDHE). Discussion of the project generating these data is available on the KDHE website: https://storymaps.arcgis.com/stories/1efcfe1924fc4daf85a7958c0a41fa5a It can also be found on the KDHE Watershed Management Section at the end of the What we Do section. https://www.kdhe.ks.gov/974/Watershed-Management-Section

A workbook of all the soils data collected near Holton, Kansas, in agricultural fields. Laboratory analysis of soil properties was completed by Ward Labs in Kearny Nebraska. Isotope analysis of soils was completed in Integrated Stable Isotope Research Facility operated by US Environmental Protection Agency. The goal of this project was to evaluate if Soil Health Principles can reduce the risk of nitrate leaching from agricultural fields. This effort was a collaborative project between EPA Region 7, EPA Office of Research and Development, and Kansas Department of Health and Environment (KDHE). Discussion of the project generating these data is available on the KDHE website: https://storymaps.arcgis.com/stories/1efcfe1924fc4daf85a7958c0a41fa5a It can also be found on the KDHE Watershed Management Section at the end of the What we Do section. https://www.kdhe.ks.gov/974/Watershed-Management-Section