This should be customer driven “Cassandra” or “The Oracle”

Slides:

Advertisements

Similar presentations

Drainage Management to Improve Water Quality and Enhanced Agricultural Production Don Pitts Agricultural Engineer NRCS USDA Champaign, IL by.

Advertisements

Delivering SCIENCE AND TECHNOLOGY Through the National Science and Technology Consortium.

AQUAREC Project Centre for Water Systems AQUAREC Project Centre for Water Systems D. Joksimovic.

Manitoba Bioeconomy Atlas Kyle Swystun Richard Grosshans.

Minnesota Watershed Nitrogen Reduction Planning Tool William Lazarus Department of Applied Economics University of Minnesota David Mulla Department of.

ManPlan: A Dynamic Web-based Modeling Program For Managing Nutrient Balance at the Watershed Level.

Point and Non-point Sources. Pollution: Point and Non-Point Point Source Pollution This source of pollution is easily identified and flows from specific.

Discussion of Climate Action Team Subgroup Activities California Integrated Waste Management Board Board Meeting December 11, 2007.

The Wealth of Nature in Indian River County David L. Cox Cox Consulting Vero Beach, Florida.

DEPARTMENT OF HUMAN SETTLEMENTS- SANITATION INPUTS ON NATIONAL WASTE MANAGEMENT STRATEGY 29 MAY 2012 By Mandisa Mangqalaza.

The wealth of waste Key economic principles of water reclamation and reuse and the steps to apply them in practice in real cases Ingo Heinz (University.

 Goals: Uniform field conditions for timely planting and harvesting Higher crop yields Risk reduction.

Getting the Big Picture How to Look at Your Watershed Indiana Watershed Planning Guide,

L-THIA Long-Term Hydrologic Impact Assessment Model ….provides relative estimates of change of runoff and non point source pollutants caused due to land.

Soil Water Assessment Tool (SWAT) Model Input

Obtaining the goals.  Identify realistic future use of all water bodies – drinking water, irrigation water, livestock watering, bathing, fishing, recipient.

Integrated science for our changing world Monitoring and Managing Ecosystem Services: An Integrated Approach Professor Mark Bailey Centre.

Conservation Drainage: Drainage for the 21st Century

Introduction to the Session 6 - Theme 4 – on “Water Resources Management and Governance”

Bernie Engel Purdue University. Low-Impact Development (LID) An approach to land development to mimic the pre-development site hydrology to: 1)Reduce.

United States Department of Agriculture Cooperative State, Research, Education and Extension Service Impacts of Agriculture on Water Quality: The role.

Kearney Foundation of Soil Science

Panel on Water, Food and Energy Overview of the Water & Energy issues and their linkages with food Richard Taylor, Executive Director, International Hydropower.

Funded by the Government of Alberta Ecosystem Services and Conservation Offsets April 24 th, 2012.

INTRODUCTINON TO INTEGRATED WATER RESOURCES MANAGEMENT Module 1 Session: What is Integrated Water Resources Management?

Interim Headwater Drainage Feature Guideline: Protecting HDFs through Urbanization Laura C.R. Del Giudice, B.Sc., M.F.C., Senior Planning Ecologist.

The Hydrologic Cycle. Summary Water is a limited resource. Growers (farmers) have a responsibility to conserve water. Water can be conserved by capturing.

Floyd’s Fork Stakeholder Process 1 Lindell Ormsbee, Director Kentucky Center of Excellence for Watershed Management

Integrated Vegetation Management A Philosophy of Utilizing All Tools to Optimize Resource Values.

LINDA’S INTERVIEWSGAP ANALYSES Task 1: DEVELOP OBJECTIVE FUNCTIONS AND INTERFACE ELEMENTS IMPORTANT TO STAKEHOLDERS Drivers, Goals, Barriers Spatial habitat.

Dr Richard Johnson, Mountain Environments, UK.  Lead Partner: Germany: Research Institute of Forest Ecology and Forestry  Partner countries: Germany,

Climate Change and Urban Food Security Challenges for Dhaka Monirul Mirza Adaptation & Impacts Research Section (AIRS), Environment Canada Bonn, May 13,

O BJECTIVE O F S OIL A ND W ATER C ONSERVATION C ONSERVATION The preservation and careful management of the environment and of natural resources.

DRAFT MURRAY DARLING BASIN PLAN. Where is the Murray–Darling Basin? Large system in south-eastern Australia 1 million km 2 1/7 area of Australia Contains.

Drainage Management for Water Quality and Crop Production Benefits Don Pitts Agricultural Engineer NRCS USDA Champaign, IL.

Environmental impacts in food production and processing

Watershed Management Muhammad Dilshad Habib 2004-ag-1414

Cooperating Partners Presentation October 12, 2006 Integrated Regional Water Management Plan (IRWMP) B S Strategies and Objectives C ANTA ARBARA OUNTY.

Linking Land use, Biophysical, and Economic Models for Policy Analysis Catherine L. Kling Iowa State University October 13, 2015 Prepared for “Coupling.

Accelerating irrigation services and preserving ecosystem service values.

USDA Natural Resources Conservation Service “Helping people help the land"

1 GEORGIAN EXPERIENCE – and Strategy for Future DAVID NAKANI Environmental Pollution Control Program DAREJAN KAPANADZE World Bank Office Tbilisi Georgia.

Technology-Driven Public-Private Partnership Programs: How Can Emerging Technologies Help to Support Sustainable Stormwater Infrastructure Investments.

AU/UNIDO/Brazil High-Level Seminar on Biofuel.  Policies are required to reflect the country’s development vision for the sector  Required to establish.

How much water will be available in the upper Colorado River Basin under projected climatic changes? Abstract The upper Colorado River Basin (UCRB), is.

Invent the Future Biological Systems Engineering VirginiaTech Invent the Future Watershed Science and Engineering Group Agricultural Drainage, Extreme.

Phase 2 Research Questions Theme 1: Nutrition, food safety and value addition 1)Which combinations of technology packages can reduce household vulnerability.

Mekong River Commission Information System/ “WUP-FIN Phase III” Concept The information system development is critical activity for maintaining the MRCS.

Precision Management beyond Fertilizer Application Hailin Zhang.

IOWA NUTRIENT REDUCTION STRATEGY A science and technology-based framework to assess and reduce nutrients to Iowa waters and the Gulf of Mexico James Gillespie.

Water management needs and options. Examples of priorities  Economic development?  Food security?  Poverty alleviation in towns and in rural areas?

Using Analysis and Tools to Inform Adaptation and Resilience Decisions -- the U.S. national experiences Jia Li Climate Change Division U.S. Environmental.

WASCAL: A Climate Service Center

CHINA – 4 – Challenges facing urban communities

India Irrigation Forum (IIF) 7 April, new DELHI needs & objectives of iif to meet sustainable development goal in India Dr Ajay Pradhan india.

Terrestrial-atmosphere (1)

Environmental Intelligence Platform – Monitoring Nutrients Pollution with Earth Observation Data for Sustainable Agriculture and Clean Waters Blue.

Global Best Practice Examples for Integrated Water

Climate and Green Plan Town Hall Toolkit

Protecting our Watershed

2018 Louisiana Soil Health and Cover Crop Conference

Project logo SIM4NEXUS Duration:

Jason Clingerman, Aquatic Ecologist

Thomas Dworak Ecologic Institute

Can you label the following countries on the map?

LIFE and the implementation of the Water Framework Directive

Environmental Challenges and Safeguard Needs

Environmental Issues in Africa

OBJECTIVE HYDROSPHERE

Anna-Stiina Heiskanen Luc Feyen

Presentation transcript:

This should be customer driven “Cassandra” or “The Oracle”

 1) Expert system/decision support tool for growing season and non-growing season operation guidelines for drainage water management systems for optimizing both agronomic crop production and environmental objectives.

 2) Treatment technologies and management strategies to remove pollutants from drainage water. (i.e. blind inlet treatment systems, bioreactors, wetlands, cover crops, filter treatment systems, etc.)

 3) Technology and protocols to validate nutrient trading credits for drainage treatment technologies.

 4) Confirmation regarding where the water and nutrients (N and P) go when drainage water management is implemented.

 5) Technologies to map existing subsurface drainage infrastructure.

 6) User friendly linkage of watershed (i.e. SWAT) and DRAINMOD models.

 7) Ecological, hydrologic, and economic evaluation of innovative watershed drainage infrastructure, such as two-stage ditches.

 1) Better understanding of climate change impacts on agricultural drainage practices and associated environmental consequences.

 2) Better understanding of climate change on drainage system design criteria.

 3) Rural and urban interface issues.

 4) Role of drained lands to meet world goals for food, fiber and fuels.

 5) Innovative ways to integrate drainage and irrigation (i.e. storage and recycling of drainage waters) specifically in the Midwest U.S.