An Overview of Air, Water & Soil in Agriculture Barbara McCarthy, Ph.D. Environmental Health Department Colorado State University.

Slides:

Advertisements

Similar presentations

Safe and Sustainable Water Resources Research Integrate the existing Drinking Water and Water Quality research programs into one holistic program that.

Advertisements

Science Project: Ja,Jin,Noonn

Ecological Systems Maintaining and Enhancing Natural Features and Minimizing Adverse Impacts of Infrastructure Projects Course Review.

Student Learning Objectives

South Llano River: One of 2011’sTop Ten National Fish Habitat Action Plan named SLR as “water to watch” WHY?? –Conserve freshwater, estuarine, and marine.

Montana’s 2007 Nonpoint Source Management Plan Robert Ray MT Dept Environmental Quality.

IPM in NRCS Programs Joe Bagdon USDA - NRCS National Water & Climate Center Amherst, Massachusetts.

Water Pollution. Watershed A watershed is an area of land from which all the water drains to the same location, such as a stream, pond, lake, river, wetland.

Conversion of Pine Lands to Irrigated Row Crops; Who Would Have Guessed? Large losses of native and grassland habitats across the state has received a.

A workshop for local government outdoor officers Being Aware about Biodiversity.

SUSTAINABILITY INDICATORS What would a layperson need to know to have a sense of that tool? Growth management has to be sustainable in order to work. “Sustainable.

Sustainability read What is Sustainable Agriculture… AGST 3000 Agriculture,

The Nevada Department of Agriculture Water Quality Program The Nevada Department of Agriculture has been involved in groundwater protection since 1990.

WATER POLLUTION.  Water covers more than 70 percent of the Earth’s surface. While less than 3 percent of this water is drinkable, all of it is necessary.

Fundamentals of River Restoration and Salmonid Fisheries OWEB, 1999, Fundamentals of River Restoration and Salmonid Fisheries OWEB, 1999, Fundamentals.

Earth Science 4.3 Water, Air, Land Resources

Overview of Watershed Systems

Environmental Stewardship & & Every Day of Every Year Caring for the Earth AGRICULTURE GA Ag Ed Curriculum Office To accompany Georgia Agriculture Education.

Dairies and Concentrated Animal Feeding Operations: Environmental Concerns and Research Needs USEPA, Region 9 March 2004.

New England is one of 10 regions making up the 406 National Water Program, “A partnership of USDA CSREES and the Land Grant System”

Introduction to the Sustainable Sites Initiative Founded in 2005 as an interdisciplinary partnership between the American Society of Landscape Architects,

Water Pollution.

Water Use. What is the hydrologic cycle? The water cycle Precipitation Evaporation transpiration.

HUMAN IMPACTS: LAND USE. More land is needed to grow food, to build roads and factories, and even to provide parks and recreation areas. As the human.

Organic Farming: An Overview Prepared by: L. Robert Barber, & Ilene Iriarte For: Guam Cooperative Extension Service & Guam Department of Agriculture Funding.

Environmental Science Chapter 1 Notes. Environmental Science: Is a multidisciplinary field that draws from all sciences (as well as other fields) Is considered.

Agriculture and its effects in Scotland, Belgium and Iceland

Horticulture CD Unit A 1-3 Horticultural Science.

Fresh Water and Resources Chapter 11 and Chapter 12.

1. Natural Resources Conservation Service Strategic Plan Strategic Plan

Watershed Assessment and Planning. Review Watershed Hydrology Watershed Hydrology Watershed Characteristics and Processes Watershed Characteristics and.

45:211: Environmental Geography ENVIRONMENTAL INTERRELATIONSHIPS Module 1.

Nonpoint Source Management Plan: Issues and Opportunities Greg Anderson Nonpoint Source Coordinator MO DNR.

Investment in Sustainable Natural Resource Management (focus: Agriculture) increases in agricultural productivity have come in part at the expense of deterioration.

Healthy People 2010 Focus Area 8: Environmental Health Progress Review February 2, 2007.

GGR 206 Instructor: Office: Telephone: Teaching Assistant Office: Telephone: Introduction to Hydrology J. M. Chen Room 305, 45 St. George.

Improving Lives, Communities and the Environment Through Natural Resources Conservation.

National Environmental Research Institute Department of Freshwater Ecology WFD-Monitoring in Denmark NOVANA Brian Kronvang NERI.

Water Pollution. Types and Sources of Water Pollution  #1 problem - Eroded soils  Organic wastes, disease-causing agents  Chemicals, nutrients  Radioactive.

Sustainable Agriculture UNIT 1 – SUSTAINABLE DEVELOPMENT

BROUGHT TO YOU BY: BUILDING ENVIRONMENTAL LEADERS IN ANIMAL AGRICULTURE WELCOME TO MANURE MANAGEMENT JEOPARDY! Sections 2 and 3 Nutrient Management Regulations.

How Do You Know If Water Is Polluted?. Did You Know? Streams and rivers serve as drinking water supplies, recreational areas,

MonthDayTopic Nov.27Ecosystem services 29Global change biology Dec.1MM’s research 4Review for exam 6Final exam—ecology.

Water Pollution. Questions for Today: What are examples of point and nonpoint pollution sources for water? What are examples of point and nonpoint pollution.

Green Jobs and Agriculture Green Today, Jobs Tomorrow Conference May 11, 2009 James Johnson, Director Environmental Stewardship Division Michigan Department.

World Food Day World Food Day 2015 is an occasion to focus the world’s attention on the crucial role played by social protection in eradicating.

Freshwater and Society Module 1, part C. Developed by: Updated: U?-m1c-s2 Water quality degradation

Chapter 3 Environmental Systems: Chemistry, Energy, and Ecosystems

PSA 28: to secure a healthy natural environment for today and the future Air free from pollutants Sustainable water use Land and soils managed sustainably.

HYDROLOGIC CYCLE. CHEMICAL COMPOSITION OF WATER Water is made up of hydrogen (H 2 ) and oxygen (O 2 ). H + + OH - ↔ H 2 O.

PREVENTING AGRICULTURE POLLUTION. Essential Question: What measures can be taken to prevent agriculture pollution? Objectives: 1. Identify sources of.

The practice of cultivating the land or raising livestock In a healthy farming system, agriculture works with the natural environment. This begins with.

PONDERING … the Power of Water Networks Developed by: Nancy Deever, M.S. and Enviro Geek …Pojoaque Valley HS.

BIOGEOCHEMICAL CYCLING EXAMPLES Unit 6.2. BIOGEOCHEMICAL CYCLING EXAMPLES 1) Nutrient Pollution 2) Agricultural Importance 3) CZ Function and Dynamics.

Environmental Problems With Food Production Ch. 12.

Food – a resource. Why is food important? 1)Source of energy 2)Source of materials for building new cells & structures **malnourishment can lead to other.

Impacts of Livestock Waste on Surface Water Quality By the North Dakota Department of Health Division of Water Quality For the Livestock Manure Nutrient.

Nutrients and the Next Generation of Conservation Presented by: Tom Porta, P.E. Deputy Administrator Nevada Division of Environmental Protection President,

The Chesapeake Bay: How is it Doing? An Overview of The Chesapeake Bay Watershed.

WATERSHEDS (Drainage Basins). WHAT IS A WATERSHED? A watershed, or drainage basin includes all of the land that drains into a river or bay either directly.

Hydrosphere Notes Parts 1 – Rivers. How does a river develop? When precipitation is greater than evapotranspiration Or from a spring where groundwater.

8.E.1 Understand the hydrosphere and the impact of humans on local systems and the effects of the hydrosphere on humans. 8.E.1.3 Predict the safety and.

It’s The Final Countdown To The Mid-point Assessment:

Fundamentals of River Restoration and Salmonid Fisheries OWEB, 1999, Fundamentals of River Restoration and Salmonid Fisheries Dylan Castle.

FOCUS LESSON : OVERVIEW OF Human Impact INTRODUCTION

ENVIRONMENTAL DEGRADATION BY POPULATION IN INDIA

Environmental Problems, Their Causes and Sustainability

Human Effects on Hydrosphere Quality

Human Effects on Hydrosphere Quality

Human Effects on Hydrosphere Quality

Presentation transcript:

An Overview of Air, Water & Soil in Agriculture Barbara McCarthy, Ph.D. Environmental Health Department Colorado State University

Agriculture & Environmental Health Agriculture is not part of “classical” Environmental Health (EH) EH as an aspect of public health –air, water, food, shelter important as related to: communicable disease transmission toxic chemical exposure physical agent interaction

Agriculture & EH Agriculture’s importance relegated to –diseases associated with agricultural chemicals –production of an ample and proper diet

EH Definition Protection against environmental factors that may adversely impact human health or the ecological balances essential to long-term human health and environmental quality. (NEHA, 1996)

Ecological Balances Odum’s proposed Life-Support System –Life-Support environment –Organisms –Processes –Resources Providing human physiological necessities

Ecological Balances Life-Support Environment –Cultivated landscapes –Domesticated landscapes –Natural landscapes Provide food, mineral nutrients, air, water

Ecological Balances Urban & Industrial landscapes are NOT included in life-support environment. –energy demanding –pollution generating

Ecological Balances The larger the urbanized area, the greater is the need for natural and domesticated landscapes. –supporting host role

Domesticated Landscapes Include agricultural lands Dominated by cultured plants and domestic animals Produce food and fiber

Domesticated Landscapes Crucial in helping to provide: –healthy soil –clean water –diverse habitats that promote the necessary ecological balances

US Land Use About 50% of US land is privately owned and classified as: - cropland -pastureland -rangeland USDA, Natural Resources Conservation Service, 2001

US Land Use -- Cropland USDA, Natural Resources Conservation Service, 2001 Each green dot represents 25,000 acres

US Land Use -- Grazing Land USDA, Natural Resources Conservation Service, 2001 Each dot represents 25,000 acres

US Land Use -- Farmland Loss On the average approximately 645,000 acres of prime farmland is estimated as lost to development per year from

Water Demand & Precipitation Legend: Percentage of Local Average Annual Precipitation USDA, Natural Resources Conservation Services, 2001 Greater than 150% 100% to 150% 75% to 100% Less than 75%

Excessive Cropland Erosion Legend: Each red dot represents 5000 acres of highly erodible land and each yellow dot represents 5000 acres of non-highly erodible land with excess erosion above the tolerable soil erosion rate. USDA-Natural Resources Conservation Service, 2001

Water Quality -- WQ Inventory National Water Quality Inventory –completed every TWO years –required by the Clean Water Act –evaluates a subset of US rivers & streams (23%) lake, reservoir, pond acres (42%) Great Lakes shoreline miles (90%)

Water Quality -- WQ Inventory Agricultural use fully supported by: –97% of river & stream miles –89% of lake, reservoir, pond acres –100% of Great Lakes shoreline miles All uses supported by: –65% of river & stream miles –55% of lake, reservoir, pond acres –4% of Great Lakes shoreline miles

Water Quality -- WQ Inventory Ag activities were reported as the most widespread pollution source silt nutrients

Water Quality -- NAWQA USGS program using consistent, standardized methods to assess water quality.

Water Quality -- NAWQA Water quality information used in understanding impacts of human activity and natural factors. Synthesis with climate, soils, geographic, geologic, hydrologic information. Nutrients and pesticides evaluated.

Water Quality -- Pesticides Analysis pesticides 8200 samples Most extensive data to date Results 58 pesticides detected >95% surface water positive <50% ground water positive >50% ag and urban streams exceeded guideline

Water Quality -- Nutrients Nitrogen –elevated levels in ag and urban areas –highest concentrations in agricultural areas –15% groundwater samples > EPA nitrate standard Phosphorus –elevated levels in ag and urban areas –highest concentrations in urban areas –tends to attach to soil and not contaminate groundwater

Water Quality -- NAWQA Results of the USGS program support the stated general agricultural impacts as reported in the Water Quality Inventory.

Ecological Balances Domesticated landscapes are crucial in helping to provide healthy soil clean water diverse habitats that promote the necessary ecological balances.

Ecological Balances As exemplified by the familiar problems of water quality degradation due to erosion pesticide runoff nutrient inputs agricultural lands are an additional burden on remaining landscapes.

Ecological Balances Key to change lies in viewing agricultural lands as parts of larger regional systems that provide life- support.

Ecological Balances Challenge to capture the NRCS vision to translate into local action … farmers and ranchers produce much more than food and fiber. Through their care and stewardship of the land, farmers and ranchers produce safe drinking water, clear- flowing streams, lakes full of fish, skies full of ducks and geese, and scenic landscapes.

Life-Support Vision Life-support vision for agriculture is fundamental to providing the ecological balances essential to long-term human health. EH professionals are clearly called to an expanded involvement in agriculture issues.

EH Professional’s Role US does not have an EH system but a “web of organizations”. Trend toward decreasing environmental responsibilities of state health agencies. Environmental protection to state regulatory agencies

EH Professional’s Role Regulatory focus does not encourage an improved understanding of the important, life- supporting relationship between the environment and human health. Funding is focused on regulatory activities not EH activities.

EH Professional’s Role EH programs include: –epidemiology –risk assessment –environmental sanitation EH activities include: –education –surveillance

EH and Agriculture EH & Agriculture Connection –fundamental Provision and maintenance of a life-supporting environment.