Presentation is loading. Please wait.

Presentation is loading. Please wait.

Printable Nitrogen Cycle Interactive Nitrogen Cycle

Published byFrancis Barrett Modified over 6 years ago

Similar presentations

Presentation on theme: "Printable Nitrogen Cycle Interactive Nitrogen Cycle"— Presentation transcript:

1 Printable Nitrogen Cycle Interactive Nitrogen Cycle
Nitrogen Text

2 Back to Intro Page OXIDATION STATES ORGANIC MATTER PLANT AND ANIMAL
MESQUITE RHIZOBIUM ALFALFA SOYBEAN BLUE-GREEN ALGAE AZOTOBACTER CLOSTRIDIUM PLANT AND ANIMAL RESIDUES R-NH2 + ENERGY + CO2 R-NH2 + H2O R-OH + ENERGY + 2NH3 MATERIALS WITH N CONTENT < 1.5% (WHEAT STRAW) CONTENT > 1.5% (COW MANURE) MICROBIAL DECOMPOSITION HETEROTROPHIC AMINIZATION BACTERIA (pH>6.0) FUNGI (pH<6.0) AMMONIFICATION GLOBAL WARMING pH>7.0 2NH4+ + 2OH- FIXED ON EXCHANGE SITES +O2 Nitrosomonas 2NO2- + H2O + 4H+ IMMOBILIZATION NH3 AMMONIA -3 NH4+ AMMONIUM -3 N2 DIATOMIC N 0 N2O NITROUS OXIDE 1 NO NITRIC OXIDE 2 NO2- NITRITE 3 NO3- NITRATE 5 OXIDATION STATES ATMOSPHERE N2O NO N2 N2O2- NH3 SYMBIOTIC NON-SYMBIOTIC + O2 Nitrobacter FERTILIZATION LIGHTNING, RAINFALL N2 FIXATION DENITRIFICATION PLANT LOSS AMINO ACIDS NO3- POOL LEACHING AMMONIA VOLATILIZATION NITRIFICATION NH2OH Pseudomonas, Bacillus, Thiobacillus Denitrificans, and T. thioparus MINERALIZATION + NITRIFICATION NO2- MICROBIAL/PLANT SINK TEMP 50°F pH 7.0 ADDITIONS LOSSES OXIDATION REACTIONS REDUCTION REACTIONS HABER BOSCH 3H2 + N NH3 (1200°C, 500 atm) Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University INDUSTRIAL FIXATION

3 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss R-NH2 + Energy + CO2 Organic Matter R-NH2 + H2O N2, N2O, NO Plant/Microbial Sink R-OH + Energy + 2NH3 NO3- Pool 2NH4+ + 2OH- 2NH4+ + 2OH- Soil exchange sites Leaching Back to Intro Page 2NO2- + H2O + 4H+

4 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Symbiotic Rhizobium Alfalfa Mesquite Soybean Non-Symbiotic Azotobacter Cyanobacteria Clostridium Fertilizer Volatilization Plant Loss Via Decay Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

5 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Haber-Bosch (1200C, 500 ATM) 3CH4 + 3O2 + 2N2  4NH3 + 3CO2 Fertilizer Volatilization Plant Loss Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

6 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Small Percentage Soil Exchange Sites Plant/Microbial Sink Volatilization Plant Loss Organic Matter N2, N2O, NO NO3- Pool Back to Main Cycle Leaching Back to Intro Page

7 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Oxidation of N N2 + 3O2  2NO3- Fertilizer Volatilization Plant Loss Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

8 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation %N > 1.5 (Animal Manure) %N < 1.5 (Wheat Straw) Microbial Decomposition Fertilizer Volatilization Immobilization Plant Loss Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

9 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Organic Matter Temperature above or below 50°F? N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

10 Back to Temperature Choice
Interactive Nitrogen Cycle Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Heterotrophic Aminization Plant Loss R-NH2 + Energy + CO2 Organic Matter Fungi pH < 6.0 Bacteria pH > 6.0 pH > 7.0 Ammonification R-NH2 + H2O Immobilization N2, N2O, NO R-OH + Energy + 2NH3 Plant/Microbial Sink Immobilization + H2O NO3- Pool 2NH4+ + 2OH- 2NH4+ + 2OH- Soil exchange sites + O2 Nitrosomonas + O2 Nitrobacter Back to Temperature Choice Back to Main Cycle 2NO2- + H2O + 4H+ Leaching Back to Intro Page

11 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Amino Acids Organic Matter NH2OH NO2- N2O2- NH3 N2, N2O, NO Plant/Microbial Sink Immobilization Thiobacillus, T. Thioparus, Pseudomonas, Bacillus, and Dentrificans NO3- Pool Mineralization & Nitrification Denitrification Back to Main Cycle Leaching Back to Intro Page

12 Back to Temperature Choice
Interactive Nitrogen Cycle Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Temperature Choice Back to Main Cycle Leaching Back to Intro Page

13 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Organic Matter Immobilization N2, N2O, NO Plant/Microbial Sink NO3- Pool 2NH4+ + 2OH- Back to Main Cycle Leaching Back to Intro Page

14 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Organic Matter N2, N2O, NO Plant/Microbial Sink Thiobacillus, T. Thioparus, Pseudomonas, Bacillus, and Dentrificans NO3- Pool Denitrification Back to Main Cycle Leaching Back to Intro Page

15 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Organic Matter NH2OH NO2- N2O2- NH3 N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

16 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Plant Loss Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

17 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Fertilizer Volatilization Heterotrophic Aminization Plant Loss R-NH2 + Energy + CO2 Organic Matter pH > 7.0 Ammonification R-NH2 + H2O N2, N2O, NO R-OH + Energy + 2NH3 Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

18 Interactive Nitrogen Cycle
Joanne LaRuffa Robert Mullen Wade Thomason Susan Mullins Shannon Taylor Heather Lees Department of Plant and Soil Sciences Oklahoma State University Atmosphere Industrial Processes Plant and Animal Residues Lightning, Rainfall N2 Fixation Haber-Bosch (1200C, 500 ATM) 3CH4 + 3O2 + 2N2  4NH3 + 3CO2 Fertilizer Volatilization Heterotrophic Aminization Plant Loss R-NH2 + Energy + CO2 Organic Matter N2, N2O, NO Plant/Microbial Sink NO3- Pool Back to Main Cycle Leaching Back to Intro Page

19 Nitrogen Information Form taken up plant Enzymes that require N
Concentration in plants Mobility Deficiency symptoms Effect of pH on availability Soil pH deficiency Nutrient interactions Role of N in plant growth Fertilizer sources Role of N in microbial growth References

20 NH4+ NO3- Back to N Text Main Page Back to Intro Page

21 Soil Plant NH4+; NO NO3- ; Yes Yes Water Soluble
Not influenced by soil colloids Plant Yes Back to N Text Main Page Back to Intro Page

22 Chlorosis in older leaves
Under severe deficiency lower leaves are brown, beginning at the leaf tip and proceeding along the midrib Back to N Text Main Page Back to Intro Page

23 None due to nitrate’s mobility
Back to N Text Main Page Back to Intro Page

24 N assimilation into amino acids for protein and amino acid synthesis
Component of chlorophyll Vegetative growth Back to N Text Main Page Back to Intro Page

25 Necessary for the synthesis for amino acids
Back to N Text Main Page Back to Intro Page

26 Nitrate reductase Nitrite reductase Nitrogenase
Back to N Text Main Page Back to Intro Page

27 Wheat 1.7 to 3.0% Corn 2.7 to 3.5% Soybeans 4.2 to 5.5%
Grain 2.0% Forage 3.0% Straw Corn 2.7 to 3.5% Soybeans 4.2 to 5.5% Grain sorghum 3.3 to 4.0 % Peanuts 3.5 to 4.5 % Alfalfa 4.5 to 5.0% Bermudagrass 2.5 to 3.0% Back to N Text Main Page Back to Intro Page

28 Low pH High pH None None at pH > 8 At pH > 7 NO2- accumulates
Back to N Text Main Page Back to Intro Page

29 Si: enhances leaf erectness neutralizing the negative effects of high N supply on light interception
P: symbiotic legume fixation needs adequate P, or a N deficiency can result Mo: component of nitrogenase, therefore could have Mo induced N deficiency in N2 fixing legumes Fe: Necessary for nitrogenase and ferredoxin, legume hemoglobin, deficiency reduces nodule mass, and nitrogenase Back to N Text Main Page Back to Intro Page

30 ammonium sulfate anhydrous ammonia ammonium chloride ammonium nitrate
ammonium nitrate- ammonium nitrate sulfate with lime ammoniated ordinary- ammonium phosphate- superphosphate sulfate monoammonium phosphate diammonium phosphate ammonium polyphosphate ammonium thiophosphate calcium nitrate potassium nitrate sodium nitrate urea urea-sulfate urea-ammonium nitrate urea-ammonium phosphate urea phosphate Back to N Text Main Page Back to Intro Page

31 Burford, J. R. , and J. M. Bremner. 1975
Burford, J.R., and J.M. Bremner Relationships between the denitrification capacities of soils and total, water-soluble and readily decomposable soil organic matter. Soil Biochem. 7: Marschner, H Mineral Nutrition in Higher Plants. Academic Press, London. Tisdale, S.L., W.L. Nelson, J.D. Beaton, and J.L. Havlin Soil Fertility and Fertilizers. MacMillan Publishing Co., New York, N.Y. Back to N Text Main Page Back to Intro Page

Download ppt "Printable Nitrogen Cycle Interactive Nitrogen Cycle"

Similar presentations

Nitrogen Cycle Ch.2.2.

Nitrogen Cycle Ch.2.2.
Nitrogen Fixation: Nitrogen fixation is one process by which molecular nitrogen is reduced to form ammonia. Ammonification: The chemical transformation.

Nitrogen Fixation: Nitrogen fixation is one process by which molecular nitrogen is reduced to form ammonia. Ammonification: The chemical transformation.
What is the Nitrogen cycle The nitrogen cycle is the biogeochemical cycle that describes the transformations of nitrogen and nitrogen- containing compounds.

What is the Nitrogen cycle The nitrogen cycle is the biogeochemical cycle that describes the transformations of nitrogen and nitrogen- containing compounds.
Printable Nitrogen Cycle Interactive Nitrogen Cycle

Printable Nitrogen Cycle Interactive Nitrogen Cycle
Soil Biogeochemical Cycles Carbon, Nitrogen, Phosphorus.

Soil Biogeochemical Cycles Carbon, Nitrogen, Phosphorus.
Nitrogen Cycle The nitrogen cycle is the movement of nitrogen through different environmental segments.

Nitrogen Cycle The nitrogen cycle is the movement of nitrogen through different environmental segments.
Learning outcomes Describe the cycle of carbon through the ecosystem Describe how humans have affected the carbon cycle.

Learning outcomes Describe the cycle of carbon through the ecosystem Describe how humans have affected the carbon cycle.
Nitrogen Cycle Sources Lightning Inorganic fertilizers Nitrogen Fixation Animal Residues Crop residues Organic fertilizers.

Nitrogen Cycle Sources Lightning Inorganic fertilizers Nitrogen Fixation Animal Residues Crop residues Organic fertilizers.
Lecture 8 NITROGEN GES175, Science of Soils. Slide 8.2.

Lecture 8 NITROGEN GES175, Science of Soils. Slide 8.2.
Nitrogen.  Occurrence: 1. ~ 80% atmosphere 2. NaNO 3 salpeter 3. Living: 1,4% (human body)

Nitrogen.  Occurrence: 1. ~ 80% atmosphere 2. NaNO 3 salpeter 3. Living: 1,4% (human body)
Nitrogen Dynamics of Soils  Introduction  Forms and Role of Nitrogen in Soils & Plants  Nitrogen Fixation  Distribution of Nitrogen (N-Cycle)  Nitrogen.

Nitrogen Dynamics of Soils  Introduction  Forms and Role of Nitrogen in Soils & Plants  Nitrogen Fixation  Distribution of Nitrogen (N-Cycle)  Nitrogen.
Nutrient Circulation Waste is in the form of dead organisms: animals/ plants/ leaves faeces urine All can contain nutrients and/or energy If the nutrients.

Nutrient Circulation Waste is in the form of dead organisms: animals/ plants/ leaves faeces urine All can contain nutrients and/or energy If the nutrients.
NITROGEN FIXATION 3 methods. 1.LIGHTENING a. high temps cause nitrogen & oxygen to for nitrogen monoxide b. this is oxidized by oxygen to form nitrogen.

NITROGEN FIXATION 3 methods. 1.LIGHTENING a. high temps cause nitrogen & oxygen to for nitrogen monoxide b. this is oxidized by oxygen to form nitrogen.
Core Training Feb 9th In-Service

Core Training Feb 9th In-Service
Sensor Based Technology for Predicting Soil Organic Carbon (Organic Matter) Kent Martin.

Sensor Based Technology for Predicting Soil Organic Carbon (Organic Matter) Kent Martin.
Toby Sandblom, Andrew Ward, and Rachel Clarkson Nitrogen Cycle.

Toby Sandblom, Andrew Ward, and Rachel Clarkson Nitrogen Cycle.
The nitrogen cycle is the biogeochemical cycle that describes the transformations of nitrogen and nitrogen- containing compounds in nature biogeochemical.

The nitrogen cycle is the biogeochemical cycle that describes the transformations of nitrogen and nitrogen- containing compounds in nature biogeochemical.
Environmental Microbiology

Environmental Microbiology
Sources of N, P and K Brad Lubbers Topic # 2033. Introduction Nitrogen, Phosphorus and Potassium Common forms taken up by the plant Early forms of phosphorus.

Sources of N, P and K Brad Lubbers Topic # Introduction Nitrogen, Phosphorus and Potassium Common forms taken up by the plant Early forms of phosphorus.
Role of microorganisms in the cycling of elements

Role of microorganisms in the cycling of elements

Similar presentations

Ads by Google