Water

Farmers, ranchers and foresters in some regions of the U.S. contend with an overabundance of water while other regions are frequently challenged by drought and water scarcity. The 100th meridian is often touted as the dividing line between the wet eastern United States and the dry, water-limited west. Projected changes in average annual precipitation show increases in much of the northern U.S. and decreases in the southern U.S., exacerbating the water-related challenges already faced in these areas. For example, an increase in spring precipitation may reduce the number of workable field days, reduce crop yields and disrupt planting operations in wetter regions. Extreme precipitation has generally increased and is projected to continue to increase across the U.S. with a warming atmosphere. Flooding related to more extreme precipitation could impact agricultural production and surface water quality as nutrient concentrations and sediment loads are washed from fields into nearby waterways.  More extreme precipitation could also increase climate risk from aging water infrastructure.

agroclimate

AgroClimate's suite of tools include Rainfall and Temperature Monitoring, Rainfall and Temperature Climatology (1950-2013), Climatology and current observations for selected weather stations in the Southeast USA, Strawberry Advisory System, Risk of Anthracnose and Botrytis...

AgroClimate

The tools presented below represent a portion of the tools available for the climate and agriculture in the Midwest. The tools range from specialized calculators to maps, models and datasets estimating a variety of outputs (e.g., crop production, greenhouse gas flux, and species...

Tools

Ongoing changes in climate have substantial impacts on the $76 billion agricultural sector in the Midwest. Assisting producers with adaptation practices that can improve their water availability and maintain soil productivity, will also reduce the variation in crop production...

Agricultural Adaptation in a Changing Climate

Changes in climate and extreme weather have already occurred and are increasing challenges for agriculture nationally and globally. Many of the impacts are expected to continue or intensify in the future. Because of the sensitivity of agriculture to weather and climate...

Agriculture in a Changing Climate

Agricultural Policy/Enviornmental eXtender Model http://epicapex.tamu.edu/apex/

APEX has components for routing water, sediment, nutrients, and pesticides across complex landscapes and channel systems to the watershed outlet as well as groundwater and reservoir components. A watershed can be subdivided as much as necessary to assure that each subarea is...

Agricultural Policy Environmental eXtender Model (APEX)

Local weather and climate determine the commodities produced and affect growth, disease, and soil health. Understanding current weather and climate is important for producing crops sustainabily. The Northwest Climate Hub works to support use of current and projected information...

Northwest Agriculture, Weather and Climate

Crimson clover cover crop

A changing climate introduces challenges for producers in the Northwest. The following resources can help farmers adjust their practices or even transform their operations to meet these challenges: AgBiz Logic and AgBiz Logic Climate AgBiz Logic uniquely collects, manages and...

Climate Adaptation Resources for Northwest Agriculture

Through its research, engagement of Corn Belt farmers, and publications, the project has provided farm management strategies, which farmers can put in place throughout the Corn Belt to make corn-based cropping systems more resilient to the current and predicted impacts of...

Sustainable Corn

Regional Assessments Colorado Climate Plan (2015) The Colorado Climate Plan is a statewide strategy of policy recommendations and actions to mitigate greenhouse gas emissions and to increase Colorado’s level of preparedness. The Colorado Climate Plan focuses on seven main...

Colorado Climate Plan 2015 Regional Assessment

Subscribe to Water