Agriculture & climate change. Greenhouse gases.

Slides:

Advertisements

Similar presentations

The Carbon Farming Initiative and Agricultural Emissions This presentation was prepared by the University of Melbourne for the Regional Landcare Facilitator.

Advertisements

The Carbon Farming Initiative and Agricultural Emissions This presentation was prepared by the University of Melbourne for the Regional Landcare Facilitator.

The Nitrogen Cycle Ch 7 Part 3.

The Nitrogen Cycle. 1. What is nitrogen? 1. Nitrogen is a non-metal, gaseous element.

NITROGEN CYCLE. Where is nitrogen found in the environment.

.  In oceans  Air  Soil  And ALL LIVING THINGS:organic  Sugar, Coal and Diamond.

Environmetal problems related to manure management Greenhouse gas emission from manure stores.

PROBLEM: N DEPOSITION INCREASES. Historical and future trends in N deposition.

The Nitrogen Cycle.

Livestock Production and Climate Change

Tuesday PAP Biology. Carbon and Nitrogen Cycles Biology 12(E)

BIOGEOCHEMICAL CYCLES:  The RECYCLING of MATERIALS through living organisms and the physical environment. BIOCHEMIST: Scientists who study how LIFE WORKS.

run-off absorption decomposition Cycling of Matter transpiration The water cycle.

Role of Bacteria in Nitrogen Cycle

CLIMATE CHANGE, GREENHOUSE GASES, AND THE LIVESTOCK INDUSTRY KASIMIR BOGIELSKI PUBLIC AFFAIRS JOHN GLENN SCHOOL OF PUBLIC AFFAIRS.

GLOBAL CLIMATE CHANGE - HUMAN FACTORS THE ENHANCED GREENHOUSE EFFECT.

CLIMATE CHANGE. OBJECTIVES: Define climate change Explain the impact of methane production on climate change Identify various methane emission sources.

Curtis Dell USDA-ARS-PSWMRU University Park, PA

Climate Change Lesson 5 How humans effect greenhouse gas production SNC2P Nicole Klement.

Life in the Soil Ch 5. Soil teems with life... 1 teaspoon of fertile soil could contain: 100 nematodes 250,000 algae 300,000 amoeba 450,000 fungi 11,700,000.

ECOLOGY BIO GEOLOGICAL CYCLES

By: Alexander Kalogerou Chiyeung Lau Miriam Khan Charles Song

Global Warming By: Danielle Hughes, Margaret Spell, Michael Phuster, Daniel Gonzalez.

Carbon & Nitrogen Cycles. Recycling Matter All things living are made of matter Total amount of matter on Earth is limited, so it must be recycled again.

Global Warming & Food Choices Mia MacDonald November 16,

The Nitrogen Cycle.

Emission of greenhouse gases from manure Sven G. Sommer Dept. of Agricultural Engineering Danish Institute of Agricultural Sciences.

Soil Respiration Unit: Soil Science. Objectives O Define: soil respiration and soil microbes O Explain the role of soil respiration in determining soil.

Carbon Cycling Production of Greenhouse Gases in Livestock Operations.

The Impact of Our Food Choices on Climate Change and the Environment.

The Nitrogen Cycle C. Doka A. Greenberg K. Guymon Z. Reidy.

Nitrogen Cycle.

Ricky & Gena.  In animal protein (organic)  In amino acids (organic)  In the soil  In the atmosphere.

Matter is classified as either organic or inorganic. Organic matter always contains carbon and hydrogen, although other elements may also be present. Inorganic.

Nature’s Recycling Programs There is a finite amount of matter on Earth. Matter is classified as organic or inorganic based on what elements it is composed.

Greenhouse Gases Cornell Notes Page 143. What is a Greenhouse Gas? (GHG) A gas in the atmosphere that absorbs and emits energy (heat) Cause the “greenhouse.

Review on Transportation Different Forms Using public transportation Harmful effects on the earth Ways you can help.

Greenhouse Gas Investigations

Christopher Papes Gregory Tulchin Colin Sullivan V1003 Climate and Society Fall 2009.

Greenhouse Effect (Global Warming)Global Is it hot in here? Or is that just me?

ECOLOGY BIO GEOLOGICAL CYCLES

Genetically modified crops and foods have advantages and disadvantages.

Whole farm systems analysis of greenhouse gas emission abatement strategies for dairy farms Richard Rawnsley, Karen Christie, and Rob Kildare.

Kyoto Protocol The Kyoto Protocol is the international treaty that attempts to address the cross-border problem of climate change and to cut down the amount.

How Human Activity Affects Greenhouse Gases. What are Greenhouse Gases Any gas that has three or more atoms in its structure will act as a greenhouse.

INTRODUCTION Nitrogen is an element that is found in both the living portion of our planet and the inorganic parts of the Earth system. It is essential.

Healthy Diet Healthy Planet Healthy You By: Kristine Chan “ We are all in a planetary emergency” -Al Gore.

Not all gases have the same behavior Some gases are greenhouse gases. Most of the gases in the atmosphere do not absorb long wave radiation.

Global Warming Student: Chris Everett Teacher: Mr. Kimball Class: Chemistry B1a Lab Section:

THE NITROGEN CYCLE.

Nitrogen and carbon cycle Ruben A. Hernandez Nitrogen  Nitrogen is important for all living organisms and is used for amino acids, DNA, and RNA.  About.

Why are microbes important? Ecological Importance of Microbes (Applied and Environmental Microbiology Chapter 25)

Biogas Digester Jeff Rohrer APES March 19, 2012.

Module 5 - Food Food Footprints.

Greenhouse Effect vs. Global Warming Greenhouse Effect ☼ NORMAL trapping of some of the Sun’s heat ☼ Keeps our planet warm enough to support life Global.

Factors affecting climate. The tilting and rotating of the Earth on its own axis The revolution of Earth around the Sun The more concentrated the sunlight,

1. What is Nitrogen?  N makes up about 78% of our atmosphere.  N in the atmosphere it is mostly in the form of ______, which is a compound that plants.

ECOLOGICAL CYCLES: CARBON, PHOTOSYNTHESIS, & RESPIRATION How are my farming practices affecting the environment & long term stability?

The Nitrogen Cycle.

Lesson 5 Our Changing Climate © 2016 Johns Hopkins University.

CATTLE RANCHING LEADS TO CLIMATE CHANGE

FOOD WASTE: THE COSTS HIDDEN The environmental cost The human cost

The Nitrogen Cycle.

Carbon & Nitrogen Cycles

The Carbon Cycle & The Nitrogen Cycle

CATTLE RANCHING LEADS TO CLIMATE CHANGE

Modern Soil Health.

Presentation transcript:

Agriculture & climate change

Greenhouse gases

Agriculture & CO2 CO2(carbon dioxide): CO2(carbon dioxide):.Mechanized agricultural practices.Mechanized agricultural practices.Transportation.Transportation.Fertilizer production.Fertilizer production.Processing and packaging.Processing and packaging.Deforestation.Deforestation

Methane: Livestock digestion and manure. Methane: Livestock digestion and manure. Enteric fermentation is part of the process of ruminant animals such as cattle. This enables them to digest complex carbohydrates that other animals cannot. A byproduct of this is methane released as belching or flatulence. Enteric fermentation is part of the process of ruminant animals such as cattle. This enables them to digest complex carbohydrates that other animals cannot. A byproduct of this is methane released as belching or flatulence. A cow on overage release between 70 and 120 kg of Methane per year. Methane is a greenhouse gas like carbon dioxide (CO2). But the negative effect on the climate of Methane is 23 times higher than the effect of CO2. Therefore the release of about 100 kg Methane per year for each cow is equivalent to about 2'300 kg CO2 per year. A cow on overage release between 70 and 120 kg of Methane per year. Methane is a greenhouse gas like carbon dioxide (CO2). But the negative effect on the climate of Methane is 23 times higher than the effect of CO2. Therefore the release of about 100 kg Methane per year for each cow is equivalent to about 2'300 kg CO2 per year. Because of the huge volume of manure in large scale livestock production manure is stored in “manure lagoons” as the manure breaks down methane is released Because of the huge volume of manure in large scale livestock production manure is stored in “manure lagoons” as the manure breaks down methane is released Agriculture & Methane

Agriculture & N2O Sythetic fertilizers are often nitrogen or ammonia based which casues N2O emmisions from microbes in the soil. Sythetic fertilizers are often nitrogen or ammonia based which casues N2O emmisions from microbes in the soil. Nitrous oxide (N2O) emissions occur as a result of soil microbial activity. Nitrous oxide (N2O) emissions occur as a result of soil microbial activity. Nitrification is an aerobic (oxygen present) process that converts ammonium (NH4) into nitrate (NO3) with N2O as a by–product Nitrification is an aerobic (oxygen present) process that converts ammonium (NH4) into nitrate (NO3) with N2O as a by–product Denitrification is an anaerobic (oxygen absent) process that converts nitrate (NO3) into nitrogen gas (N2) with N2O being produced as an intermediate product. Denitrification is an anaerobic (oxygen absent) process that converts nitrate (NO3) into nitrogen gas (N2) with N2O being produced as an intermediate product. N2O is approximately 300 times more potent GHG that CO2 N2O is approximately 300 times more potent GHG that CO2

What can be done? Transitioning to organic agriculture: No Synthetic Fertilizers or pesticides less N2O and less CO2 Local food production: reduces transportation mileage less CO2 Smaller farms more people less machines, Less need for mechanized methods. Eat less meat: the huge demand for meat creates the need for enormous amounts of livestock production which means methane emissions and deforestation.