Microbiology of the Everglades Ecosystem
portes grátis
Microbiology of the Everglades Ecosystem
Ogram, Andrew; Gottlieb, Andrew D.; Entry, James A.; Jayachandran, Krish
Taylor & Francis Ltd
12/2020
500
Mole
Inglês
9780367738419
15 a 20 dias
930
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Section I: Abiotic Factors that Influence Water and Soil Microorganisms. Water Quality in the Everglades Protection Area. Spatial Distribution of Soil Nutrients in the Everglades Protection Area. Mercury Mass Budget Estimates and Cycling in the Florida Everglades. Sea Level Rise in the Everglades: Plant-Soil-Microbial. Feedbacks in Response to Changing Physical Conditions. Section II Periphyton. The Importance of Species-Based Microbial Assessment of Water Quality in Freshwater Everglades Wetlands Changes in Hydrology, Nutrient Loading and Conductivity in the Florida Everglades, and Concurrent Effects on Periphyton Community. Structure and Function. The Role of Periphyton Mats in Consumer Community Structure and Function in Calcareous Wetlands: Lessons from the Everglades. Nitrogenase Activity in Everglades Periphyton: Patterns, Regulators and Use as an Indicator of System Change Structure and Function of Cyanobacterial Mats in the Wetlands of Belize. Biological Indicators of Changes in Water Quality and Habitats of the Coastal and Estuarine Areas of the Greater Everglades Ecosystem. Epiphytic Diatoms along Phosphorus and Salinity Gradients in Florida Bay (Florida, U.S.A.), an Illustrated Guide and Annotated Checklist. Pigment-Based Chemotaxonomy and its Application to Everglades Periphyton. Detecting Calcareous Periphyton Mats in the Greater Everglades. Using Passive Remote Sensing Methods. Section III Microbiology of the Everglades. The Microbial Ecology of Mercury Methylation and Demethylation in the Florida Everglades. Methanogens within the Sawgrass Communities of the Everglades and Biscayne Bay Watersheds. Ecological Perspective on the Associations of Syntrophic Bacteria, Methanogens and Methanotrophs in the Florida Everglades WCA-2A Soils. Potential for Biological Control of Invasive Plants in the Everglades Ecosystem using Native Microorganisms. Algal Toxin Degradation by Indigenous Bacterial Communities in the Everglades Region. Closing Thoughts on the Role of Microbial Ecology in Management and Monitoring of the Greater Everglades Ecosystem.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Brazilian Peppertree;Crayfi Sh;Everglades Agricultural Area;SFWMD;ENP;Water Conservation Area 3a;Periphyton Mats;Everglades Periphyton;Shark River Slough;N2 Fi Xation;Southeast Environmental Research Center;Florida Bay;Stormwater Treatment Areas;Taylor Slough;Everglades Ecosystem;Lake Okeechobee;Greater Everglades Ecosystem;Tamiami Trail;Marl Prairies;Nitrogen Fi Xation;Cyanobacterial Mats;Striae Density;Periphyton Communities;Sav;Dinofl Agellates
Section I: Abiotic Factors that Influence Water and Soil Microorganisms. Water Quality in the Everglades Protection Area. Spatial Distribution of Soil Nutrients in the Everglades Protection Area. Mercury Mass Budget Estimates and Cycling in the Florida Everglades. Sea Level Rise in the Everglades: Plant-Soil-Microbial. Feedbacks in Response to Changing Physical Conditions. Section II Periphyton. The Importance of Species-Based Microbial Assessment of Water Quality in Freshwater Everglades Wetlands Changes in Hydrology, Nutrient Loading and Conductivity in the Florida Everglades, and Concurrent Effects on Periphyton Community. Structure and Function. The Role of Periphyton Mats in Consumer Community Structure and Function in Calcareous Wetlands: Lessons from the Everglades. Nitrogenase Activity in Everglades Periphyton: Patterns, Regulators and Use as an Indicator of System Change Structure and Function of Cyanobacterial Mats in the Wetlands of Belize. Biological Indicators of Changes in Water Quality and Habitats of the Coastal and Estuarine Areas of the Greater Everglades Ecosystem. Epiphytic Diatoms along Phosphorus and Salinity Gradients in Florida Bay (Florida, U.S.A.), an Illustrated Guide and Annotated Checklist. Pigment-Based Chemotaxonomy and its Application to Everglades Periphyton. Detecting Calcareous Periphyton Mats in the Greater Everglades. Using Passive Remote Sensing Methods. Section III Microbiology of the Everglades. The Microbial Ecology of Mercury Methylation and Demethylation in the Florida Everglades. Methanogens within the Sawgrass Communities of the Everglades and Biscayne Bay Watersheds. Ecological Perspective on the Associations of Syntrophic Bacteria, Methanogens and Methanotrophs in the Florida Everglades WCA-2A Soils. Potential for Biological Control of Invasive Plants in the Everglades Ecosystem using Native Microorganisms. Algal Toxin Degradation by Indigenous Bacterial Communities in the Everglades Region. Closing Thoughts on the Role of Microbial Ecology in Management and Monitoring of the Greater Everglades Ecosystem.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Brazilian Peppertree;Crayfi Sh;Everglades Agricultural Area;SFWMD;ENP;Water Conservation Area 3a;Periphyton Mats;Everglades Periphyton;Shark River Slough;N2 Fi Xation;Southeast Environmental Research Center;Florida Bay;Stormwater Treatment Areas;Taylor Slough;Everglades Ecosystem;Lake Okeechobee;Greater Everglades Ecosystem;Tamiami Trail;Marl Prairies;Nitrogen Fi Xation;Cyanobacterial Mats;Striae Density;Periphyton Communities;Sav;Dinofl Agellates
