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This webpage provides answers to frequently asked questions about the Conservation Effects Assessment Project (CEAP). Last Updated: June 9, 2023

Applying regenerative agriculture principles allows farmers and ranchers in grazing animal production to be profitable and good stewards of the land.

Climate information—historical, real-time, and predictive—is vital for the sustainable management of agriculture and natural resources. A committee of researchers and Extension educators from Land-grant Universities coordinates climate data collection and use in the western United States. Their work is supported in part by the Hatch Multistate Research Fund through USDA’s National Institute of Food and Agriculture. Climate information—historical, real-time and predictive—is vital for the sustainable management of agriculture and natural resources.  Climate change poses major challenges to agriculture and natural resources in the western United States. Climate data are key to practices, tools, legislation, programs and policies that protect and enhance water, soil and air.  With so many different entities collecting climate data and myriad ways of storing and distributing data, it can be difficult to access relevant, reliable climate information. Good communication and coordination are needed, especially to address regional issues.  A committee of researchers and Extension educators from Land-grant Universities coordinates climate data collection and use in the western United States. Their work is supported in part by the Hatch Multistate Research Fund through USDA’s National Institute of Food and Agriculture.  For more than 30 years, the committee has leveraged existing climate data collection, analysis and distribution infrastructure and technologies to meet agriculture and natural resource management needs in the western U.S. The group has played a critical role in coordinating these groups and networks. In times of increasingly tight budgets, this multistate committee is essential to ensuring the sustainability and economic viability of climate networks and partnerships. With members in multiple states, the committee can facilitate efficient climate monitoring and widely promote the use of climate data and products for agriculture, water management, industry, emergency preparedness, transportation, policymaking, education and other purposes.  Achievements  To improve climate data and tools, the committee:  Evaluated how well existing climate data products and services are meeting user needs, identified gaps in climate monitoring networks and explored remedial options.  Developed and encouraged use of new tools, such as more accurate soil moisture sensors, that improve data quality.  Increased state-level climate data collection to help ensure high-quality data.  To make climate data collection more collaborative and efficient, the committee:  Developed standards for siting and maintaining weather stations and archiving data and metadata.  Developed technologies to cost-effectively gather and distribute data from various sources.  Coordinated climate data collection among multiple agencies.  Encouraged inter-agency support to help climate monitoring networks obtain enough funding and personnel to provide consistent, high-quality data and minimize operational and maintenance costs.  Contributed to the Community Collaborative Rain Hail and Snow Network, a low-cost, low-tech, volunteer-based precipitation monitoring network that is administered by Colorado State University.  To increase access to climate data and tools, the committee:  Developed best practices and technologies for manipulating, distributing and presenting climate data to allow easy use for agriculture and natural resource management.  Shared climate-related information via partner websites and other outlets.  Facilitated the creation of climate models, impact assessments, drought advisories and other products that incorporate climate data from multiple sources (including satellite, radar and ground observations) for policymakers, water managers and other users.  Expanded the AgriMet program and fostered cooperative relationships with private, tribal, local, state and federal agencies, making it the most commonly used source for climate data on farms in the northwestern U.S.  Created the PRISM Climate Group at Oregon State University, providing state-of-the-art weather and climate maps and products, which are downloaded over 30,000 times a day for use in agriculture, natural resource management, engineering, energy, economics and more.   How Are Climate Data & Tools Used?  Drought and flood mitigation: Climate data, tools and products helped the Arizona Governor’s Drought Task Force, Arizona Game and Fish, and local livestock producers plan for and respond to droughts. Arizona scientists also helped the Navajo, Hopi and White Mountain Apache tribes develop drought mitigation plans. California scientists worked with the National Weather Service, NASA, local water agencies and others to monitor snowpack and snowmelt and predict potential flood hazards and water supply issues. Three reservoir operators in California are using climate data to better control their water supply and reduce flood hazards. Proactive actions and early response can minimize the harmful impacts of droughts and floods on the environment, economy, and communities.  Farm and ranch management: After using AgriMet data to schedule irrigation, a potato grower in Idaho reported annual power savings between $14,000-17,000. Another grower in Idaho reported a 15% increase in potato yield after using AgriMet data for irrigation scheduling, resulting in increased revenue of $60,000. In Arizona, scientists helped wine grape growers access and use temperature data to protect grape yield and quality from frosts and high temperatures. Arizona scientists also worked with the USDA Southwest Climate Hub to develop best practices and tools for monitoring rangeland precipitation.  Crop insurance: PRISM’s weather and climate maps are delivered to approximately 6,000 crop insurance adjusters and underwriters nationwide. PRISM data have improved the quality and integrity of the USDA Risk Management Agency crop insurance program, saving taxpayer dollars by reducing inappropriate payments and improving insurance ratings.  Wildfire management: Nevada’s Desert Research Institute and Western Regional Climate Center collaborated with fire managers in Nevada and California to use the Evaporative Demand Drought Index for seasonal fire danger outlooks and real-time operations.  Storm prediction: California scientists worked with federal, local and academic collaborators to combine advanced observations, forecasts, modeling and other tools for storm hazard reduction.  Dust control: New Mexico State University weather stations and cameras provided the New Mexico Department of Transportation and the National Weather Service with valuable information on the sources of dust on I-10.  Lawn and garden irrigation: AgriMet is used as the main source of data for residential lawn “Smart Controllers” in the Northwest. These controllers apply water only when it is needed, helping homeowners save water and money.  Public health: Montana State University scientists helped develop a comprehensive report that details how climate change impacts the health of Montanans, both now and in the future.  Learn more about the Climate Data and Monitoring project here.

About 10,000 years ago, humans began to farm. This agricultural revolution was a turning point in our history and enabled the existence of civilization. Today, nearly 40 percent of our planet is farmland. Spread all over the world, these lands are the pieces to a global puzzle we're all facing: in the future, how can we feed every member of a growing population a healthy diet? Brent Loken investigates. [Directed by Hype CG, narrated by Jack Cutmore-Scott, music by Gabriel Maia].

This webinar presents case studies that bring to light the crucial insights provided by BeCrop technology, used to develop effective strategies for promoting soil health with a special focus on minimizing disease with early risk detection.

Farmers used to plant "cover crops" to rejuvenate fields in the off season. When those were replaced with chemicals, the soil suffered.

Science, consumers, and regulatory agencies are pushing these crop inputs to the forefront of the industry.

Biome Makers' launches new online shop for Biological Soil Tests. Farmers and advisors can now order BeCrop® Test, an advanced biological soil test, directly from Biome Makers' website. This new element of eCommerce simplifies BeCrop® Test purchases with a quick and easy process and informs farmers and advisors about their soil's health before the next growing season.

Improving producer profitability, soil health and water quality by partnering with nature.

Many times in life, we do not appreciate something until we lose it. And I always took for granted growing healthy plants until I came to West Texas. Understanding what our soil is lacking has caused me to do much research in the area of composting and soil biology. It has also motivated me to […]

URBANA, Ill. — Just how much carbon is in the soil? That’s a tough question to answer at large spatial scales, but understanding soil organic carbon at regional, national, or global scales could help scientists predict overall soil health, crop productivity, and even worldwide carbon cycles. Classically, researchers collect soil samples in the field and […]

How might we use agroecological research at the intersection of agronomy and ecology to facilitate...

Growers must efficiently manage field inputs while reducing the risk of yield losses to maximize profitability season after season. Fertilizers are significant variable costs in production, and tools are available to assess their need. This article describes best management practices for soil testing, report interpretation, and assessing fertilizer needs for crops in North America.

Oklahoma Sustainable Agriculture Research & Education

A Texas A&M AgriLife-led team is addressing that issue by evaluating biobased cropping systems with both water and carbon resiliency.

Kerr Center for Sustainable Agriculture in Oklahoma educational programs, news, events, publications, presentations, videos, history, staff, donations.

Renewable energy production is growing in the United States, but expanding an energy system built on renewables – like solar or wind – means locating infrastructure closer to where those resources are either abundant and/or easily distributed. Research supported by the National Institute of Food and Agriculture (NIFA) is developing options where solar energy production and agriculture are partners rather than competitors for land. Renewable energy production is growing in the United States, but expanding an energy system built on renewables – like solar or wind – means locating infrastructure closer to where those resources are either abundant and/or easily distributed. Research supported by the National Institute of Food and Agriculture (NIFA) is developing options where solar energy production and agriculture are partners rather than competitors for land.  Led by the University of Illinois Urbana-Champaign, the Sustainably Co-locating Agricultural and Photovoltaic Electricity Systems (SCAPES) project is researching agrivoltaic systems—fields with both crops and solar panels—in a variety of land and climate types.  Additionally, the project features a combination of research, education and Extension activities at the University of Arizona, Colorado State University, Auburn University, the University of Illinois Chicago and the National Renewable Energy Laboratory.  “Co-locating photovoltaic systems within productive pasture and crop land -- aptly named agrivoltaic systems -- not only provides potential economic benefit but could go a long way toward mitigating barriers to acceptance of photovoltaics for agriculture, as this synergy is a sustainable solution that does not compete for land. We are very happy to fund this collaborative project,” said Steven J. Thomson, National Program Leader.   Supported by NIFA’s Sustainable Agriculture Systems program, the project brings together people from multiple disciplines to take a complete look at the different dimensions of moving towards the use of more agrivoltaics in the United States.  The SCAPES project is working to provide a comprehensive analysis of the potential of agrivoltaics. Its goal is to maintain or increase crop yield; increase the combined (food and electricity) productivity of land; and diversify and increase farm profitability with diverse crops (row crops, forage and specialty crops) across three biophysically diverse regions in the U.S.: rainfed Illinois, dryland Colorado and irrigated Arizona.  SCAPES couples field experiments across three states with farm-scale economic analysis, farmer survey and a system modelling approach to extrapolate not only production outcomes but economic outcomes as well. Additionally, the project’s economic and Extension teams are examining strategies to overcome adoption barriers for agrivoltaics.  Watch how the SCAPES project is focusing on agrivoltaic systems—fields with both crops and solar panels—in a variety of land and climate types.

The bill’s big tax incentives for low-carbon technologies could allow the country to cut its greenhouse gas emissions by roughly 40 percent below 2005 levels by the end of this decade.

WASHINGTON, Sept. 14, 2022 – Agriculture Secretary Tom Vilsack announced today that the Biden-Harris Administration through the U.S. Department of Agriculture is investing up to $2.8 billion in 70 selected projects under the first pool of the Partnerships for Climate-Smart Commodities funding opportunity, with projects from the second funding pool to be announced later this year.

Agriculture Secretary Tom Vilsack announced today that USDA will invest an additional $325 million for 71 projects in the second Partnerships for Climate-Smart Commodities funding pool.