Verfügbarkeit: Soil Health on the Farm, Ranch, and in the Garden

Soil Health on the Farm, Ranch, and in the Garden:

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Bibliographische Detailangaben
1. Verfasser:	Spaeth Jr., Kenneth E. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cham Springer International Publishing AG 2020
Schlagworte:	Soils-Quality
Beschreibung:	Description based on publisher supplied metadata and other sources
Beschreibung:	1 Online-Ressource (378 Seiten)
ISBN:	9783030403980

Internformat

MARC


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505	8		\|a Intro -- Preface -- Contents -- Chapter 1: Taming the Land: A Historical Perspective -- Taming the Land and Its Consequences -- The Advent of Agriculture -- Land Statistics: Area and Ownership in the United States and Erosion Trends -- What Is Soil Health: Is It a New Idea? -- Objectives of This Book -- References -- Chapter 2: The Ecological Connection in Farming, Ranching, and Gardening -- Introduction -- Classifying Terrestrial Ecosystems -- Examining the Landscape: Concepts of Land Classification -- Examples of Two Hierarchical Classifications of Terrestrial Plant Communities -- Case Study -- Hierarchical Classification: Ecoregion11 -- Rolling Plains and Breaks -- Hierarchical Classification: USDA-NRCS-Land Resource Region: Western Range and Irrigated Region and Major Land Resource Area 73 Rolling Plains and Breaks -- Evaluating the Landscape at the Ecological Site Scale -- Ecological Site State and Transition Model -- Summary -- References -- Chapter 3: Hydrology and Erosion Processes -- Hydrology and Erosion Processes -- Hydrologic Budget -- Precipitation -- Raindrop Dynamics and Plant Interception -- Design Storm Frequencies -- Infiltration Dynamics -- Biological Soil Crusts -- Infiltration Capacity -- Infiltration Rate -- Infiltration Curve -- Infiltrability -- Hydraulic Conductivity -- Percolation -- Soil Water Characteristics -- Plant Available Water -- Runoff -- Watershed Hydrograph -- Baseflow -- Subsurface Flow -- Evaporation, Transpiration, and Evapotranspiration -- Evaporation -- Transpiration -- Evapotranspiration -- Erosion -- Water Erosion Dynamics (Figs. 3.16 and 3.17) -- Hydrology and Erosion Models: The Importance of Plant Litter and Foliar Cover -- Wind-Induced Erosion (Fig. 3.22) -- Vegetative Influences and Manipulation on Soil Physical Properties Related to Hydrology -- Conclusions -- References
505	8		\|a Chapter 4: Cover Crop Dynamics on Hydrology and Erosion -- History and Agronomic Impacts of Cover Crops -- Advantages and Disadvantages of Cover Crops -- Cover Crop Benefits to Hydrology and Erosion -- Rooting Dynamics and Cover Crops -- Treatment I: Corn Grain, Fall Plow 3% Slope -- SCI and STIR Output -- Treatment II: Corn Grain, Fall Plot 5% Slope -- SCI and STIR Output -- Treatment III: Corn Grain, Spring Disk Cultivation After No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- Treatment IV: Corn Grain, No-Till Corn with No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- References -- Chapter 5: Vegetation Effects on Hydrology and Erosion: Grazinglands -- Soil Health Concepts on Rangeland -- Fire Dynamics on Hydrology and Erosion -- Grazing Effects on Rangeland Hydrology and Erosion -- Influence of Livestock Grazing and Trampling on Hydrology -- Summary -- Soil Erosion and Sediment Production on Watersheds -- Hydrologic Effects of Range Improvement Practices -- Riparian Vegetation and Grazing -- Summary and Conclusions -- References -- Chapter 6: Organic Matter: The Whole Truth and Nothing but the Truth -- Introducing Carbon -- Global Carbon Cycle -- Organic Matter Content in Soil -- Carbon Budgets and Balance in Terrestrial Ecosystems -- Biogeochemical Cycles -- Conceptual Flow of Soil Organic Matter and Associated Nutrients -- Carbon Sequestration Potentials and Benefits of Conservation Management -- Soil Loss Effects on Carbon Budget -- Open Burning Effects on Carbon Balance -- Contribution of Plant Residues to Soil Organic Matter and Fertility -- Cropland -- Grazingland -- Grazing and Haying Effects on Soil Organic Carbon -- Carbon Balance Examples in Cropland, Rangeland, Forest, and Garden Settings -- Manure Applications and Carbon Balance -- Quick Facts Regarding Manure? (Tables 6.11 and 6.12)
505	8		\|a Manure Applications and Nitrogen Dynamics -- Organic Matter Fact Sheet -- Global Carbon -- Soils -- Microbial Roles in SOM Formation -- Manure -- References -- Chapter 7: Soil-Hydrology-Plant Assessment Technologies for Cropland, Rangeland, Pastureland, and Gardens -- Getting to Know Your Soil -- Soil Surveys -- Web Soil Survey -- Basic Steps to Get Started with Web Soil Survey -- References -- Index
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Datensatz im Suchindex

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contents	Intro -- Preface -- Contents -- Chapter 1: Taming the Land: A Historical Perspective -- Taming the Land and Its Consequences -- The Advent of Agriculture -- Land Statistics: Area and Ownership in the United States and Erosion Trends -- What Is Soil Health: Is It a New Idea? -- Objectives of This Book -- References -- Chapter 2: The Ecological Connection in Farming, Ranching, and Gardening -- Introduction -- Classifying Terrestrial Ecosystems -- Examining the Landscape: Concepts of Land Classification -- Examples of Two Hierarchical Classifications of Terrestrial Plant Communities -- Case Study -- Hierarchical Classification: Ecoregion11 -- Rolling Plains and Breaks -- Hierarchical Classification: USDA-NRCS-Land Resource Region: Western Range and Irrigated Region and Major Land Resource Area 73 Rolling Plains and Breaks -- Evaluating the Landscape at the Ecological Site Scale -- Ecological Site State and Transition Model -- Summary -- References -- Chapter 3: Hydrology and Erosion Processes -- Hydrology and Erosion Processes -- Hydrologic Budget -- Precipitation -- Raindrop Dynamics and Plant Interception -- Design Storm Frequencies -- Infiltration Dynamics -- Biological Soil Crusts -- Infiltration Capacity -- Infiltration Rate -- Infiltration Curve -- Infiltrability -- Hydraulic Conductivity -- Percolation -- Soil Water Characteristics -- Plant Available Water -- Runoff -- Watershed Hydrograph -- Baseflow -- Subsurface Flow -- Evaporation, Transpiration, and Evapotranspiration -- Evaporation -- Transpiration -- Evapotranspiration -- Erosion -- Water Erosion Dynamics (Figs. 3.16 and 3.17) -- Hydrology and Erosion Models: The Importance of Plant Litter and Foliar Cover -- Wind-Induced Erosion (Fig. 3.22) -- Vegetative Influences and Manipulation on Soil Physical Properties Related to Hydrology -- Conclusions -- References Chapter 4: Cover Crop Dynamics on Hydrology and Erosion -- History and Agronomic Impacts of Cover Crops -- Advantages and Disadvantages of Cover Crops -- Cover Crop Benefits to Hydrology and Erosion -- Rooting Dynamics and Cover Crops -- Treatment I: Corn Grain, Fall Plow 3% Slope -- SCI and STIR Output -- Treatment II: Corn Grain, Fall Plot 5% Slope -- SCI and STIR Output -- Treatment III: Corn Grain, Spring Disk Cultivation After No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- Treatment IV: Corn Grain, No-Till Corn with No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- References -- Chapter 5: Vegetation Effects on Hydrology and Erosion: Grazinglands -- Soil Health Concepts on Rangeland -- Fire Dynamics on Hydrology and Erosion -- Grazing Effects on Rangeland Hydrology and Erosion -- Influence of Livestock Grazing and Trampling on Hydrology -- Summary -- Soil Erosion and Sediment Production on Watersheds -- Hydrologic Effects of Range Improvement Practices -- Riparian Vegetation and Grazing -- Summary and Conclusions -- References -- Chapter 6: Organic Matter: The Whole Truth and Nothing but the Truth -- Introducing Carbon -- Global Carbon Cycle -- Organic Matter Content in Soil -- Carbon Budgets and Balance in Terrestrial Ecosystems -- Biogeochemical Cycles -- Conceptual Flow of Soil Organic Matter and Associated Nutrients -- Carbon Sequestration Potentials and Benefits of Conservation Management -- Soil Loss Effects on Carbon Budget -- Open Burning Effects on Carbon Balance -- Contribution of Plant Residues to Soil Organic Matter and Fertility -- Cropland -- Grazingland -- Grazing and Haying Effects on Soil Organic Carbon -- Carbon Balance Examples in Cropland, Rangeland, Forest, and Garden Settings -- Manure Applications and Carbon Balance -- Quick Facts Regarding Manure? (Tables 6.11 and 6.12) Manure Applications and Nitrogen Dynamics -- Organic Matter Fact Sheet -- Global Carbon -- Soils -- Microbial Roles in SOM Formation -- Manure -- References -- Chapter 7: Soil-Hydrology-Plant Assessment Technologies for Cropland, Rangeland, Pastureland, and Gardens -- Getting to Know Your Soil -- Soil Surveys -- Web Soil Survey -- Basic Steps to Get Started with Web Soil Survey -- References -- Index
ctrlnum	(ZDB-30-PQE)EBC6386335 (ZDB-30-PAD)EBC6386335 (ZDB-89-EBL)EBL6386335 (OCoLC)1204310307 (DE-599)BVBBV048224472
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dewey-tens	330 - Economics
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spelling	Spaeth Jr., Kenneth E. Verfasser aut Soil Health on the Farm, Ranch, and in the Garden Cham Springer International Publishing AG 2020 ©2020 1 Online-Ressource (378 Seiten) txt rdacontent c rdamedia cr rdacarrier Description based on publisher supplied metadata and other sources Intro -- Preface -- Contents -- Chapter 1: Taming the Land: A Historical Perspective -- Taming the Land and Its Consequences -- The Advent of Agriculture -- Land Statistics: Area and Ownership in the United States and Erosion Trends -- What Is Soil Health: Is It a New Idea? -- Objectives of This Book -- References -- Chapter 2: The Ecological Connection in Farming, Ranching, and Gardening -- Introduction -- Classifying Terrestrial Ecosystems -- Examining the Landscape: Concepts of Land Classification -- Examples of Two Hierarchical Classifications of Terrestrial Plant Communities -- Case Study -- Hierarchical Classification: Ecoregion11 -- Rolling Plains and Breaks -- Hierarchical Classification: USDA-NRCS-Land Resource Region: Western Range and Irrigated Region and Major Land Resource Area 73 Rolling Plains and Breaks -- Evaluating the Landscape at the Ecological Site Scale -- Ecological Site State and Transition Model -- Summary -- References -- Chapter 3: Hydrology and Erosion Processes -- Hydrology and Erosion Processes -- Hydrologic Budget -- Precipitation -- Raindrop Dynamics and Plant Interception -- Design Storm Frequencies -- Infiltration Dynamics -- Biological Soil Crusts -- Infiltration Capacity -- Infiltration Rate -- Infiltration Curve -- Infiltrability -- Hydraulic Conductivity -- Percolation -- Soil Water Characteristics -- Plant Available Water -- Runoff -- Watershed Hydrograph -- Baseflow -- Subsurface Flow -- Evaporation, Transpiration, and Evapotranspiration -- Evaporation -- Transpiration -- Evapotranspiration -- Erosion -- Water Erosion Dynamics (Figs. 3.16 and 3.17) -- Hydrology and Erosion Models: The Importance of Plant Litter and Foliar Cover -- Wind-Induced Erosion (Fig. 3.22) -- Vegetative Influences and Manipulation on Soil Physical Properties Related to Hydrology -- Conclusions -- References Chapter 4: Cover Crop Dynamics on Hydrology and Erosion -- History and Agronomic Impacts of Cover Crops -- Advantages and Disadvantages of Cover Crops -- Cover Crop Benefits to Hydrology and Erosion -- Rooting Dynamics and Cover Crops -- Treatment I: Corn Grain, Fall Plow 3% Slope -- SCI and STIR Output -- Treatment II: Corn Grain, Fall Plot 5% Slope -- SCI and STIR Output -- Treatment III: Corn Grain, Spring Disk Cultivation After No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- Treatment IV: Corn Grain, No-Till Corn with No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- References -- Chapter 5: Vegetation Effects on Hydrology and Erosion: Grazinglands -- Soil Health Concepts on Rangeland -- Fire Dynamics on Hydrology and Erosion -- Grazing Effects on Rangeland Hydrology and Erosion -- Influence of Livestock Grazing and Trampling on Hydrology -- Summary -- Soil Erosion and Sediment Production on Watersheds -- Hydrologic Effects of Range Improvement Practices -- Riparian Vegetation and Grazing -- Summary and Conclusions -- References -- Chapter 6: Organic Matter: The Whole Truth and Nothing but the Truth -- Introducing Carbon -- Global Carbon Cycle -- Organic Matter Content in Soil -- Carbon Budgets and Balance in Terrestrial Ecosystems -- Biogeochemical Cycles -- Conceptual Flow of Soil Organic Matter and Associated Nutrients -- Carbon Sequestration Potentials and Benefits of Conservation Management -- Soil Loss Effects on Carbon Budget -- Open Burning Effects on Carbon Balance -- Contribution of Plant Residues to Soil Organic Matter and Fertility -- Cropland -- Grazingland -- Grazing and Haying Effects on Soil Organic Carbon -- Carbon Balance Examples in Cropland, Rangeland, Forest, and Garden Settings -- Manure Applications and Carbon Balance -- Quick Facts Regarding Manure? (Tables 6.11 and 6.12) Manure Applications and Nitrogen Dynamics -- Organic Matter Fact Sheet -- Global Carbon -- Soils -- Microbial Roles in SOM Formation -- Manure -- References -- Chapter 7: Soil-Hydrology-Plant Assessment Technologies for Cropland, Rangeland, Pastureland, and Gardens -- Getting to Know Your Soil -- Soil Surveys -- Web Soil Survey -- Basic Steps to Get Started with Web Soil Survey -- References -- Index Soils-Quality Erscheint auch als Druck-Ausgabe Spaeth Jr., Kenneth E. Soil Health on the Farm, Ranch, and in the Garden Cham : Springer International Publishing AG,c2020 9783030403973
spellingShingle	Spaeth Jr., Kenneth E. Soil Health on the Farm, Ranch, and in the Garden Intro -- Preface -- Contents -- Chapter 1: Taming the Land: A Historical Perspective -- Taming the Land and Its Consequences -- The Advent of Agriculture -- Land Statistics: Area and Ownership in the United States and Erosion Trends -- What Is Soil Health: Is It a New Idea? -- Objectives of This Book -- References -- Chapter 2: The Ecological Connection in Farming, Ranching, and Gardening -- Introduction -- Classifying Terrestrial Ecosystems -- Examining the Landscape: Concepts of Land Classification -- Examples of Two Hierarchical Classifications of Terrestrial Plant Communities -- Case Study -- Hierarchical Classification: Ecoregion11 -- Rolling Plains and Breaks -- Hierarchical Classification: USDA-NRCS-Land Resource Region: Western Range and Irrigated Region and Major Land Resource Area 73 Rolling Plains and Breaks -- Evaluating the Landscape at the Ecological Site Scale -- Ecological Site State and Transition Model -- Summary -- References -- Chapter 3: Hydrology and Erosion Processes -- Hydrology and Erosion Processes -- Hydrologic Budget -- Precipitation -- Raindrop Dynamics and Plant Interception -- Design Storm Frequencies -- Infiltration Dynamics -- Biological Soil Crusts -- Infiltration Capacity -- Infiltration Rate -- Infiltration Curve -- Infiltrability -- Hydraulic Conductivity -- Percolation -- Soil Water Characteristics -- Plant Available Water -- Runoff -- Watershed Hydrograph -- Baseflow -- Subsurface Flow -- Evaporation, Transpiration, and Evapotranspiration -- Evaporation -- Transpiration -- Evapotranspiration -- Erosion -- Water Erosion Dynamics (Figs. 3.16 and 3.17) -- Hydrology and Erosion Models: The Importance of Plant Litter and Foliar Cover -- Wind-Induced Erosion (Fig. 3.22) -- Vegetative Influences and Manipulation on Soil Physical Properties Related to Hydrology -- Conclusions -- References Chapter 4: Cover Crop Dynamics on Hydrology and Erosion -- History and Agronomic Impacts of Cover Crops -- Advantages and Disadvantages of Cover Crops -- Cover Crop Benefits to Hydrology and Erosion -- Rooting Dynamics and Cover Crops -- Treatment I: Corn Grain, Fall Plow 3% Slope -- SCI and STIR Output -- Treatment II: Corn Grain, Fall Plot 5% Slope -- SCI and STIR Output -- Treatment III: Corn Grain, Spring Disk Cultivation After No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- Treatment IV: Corn Grain, No-Till Corn with No-Till Rye Cover Crop 3% Slope -- SCI and STIR Output -- References -- Chapter 5: Vegetation Effects on Hydrology and Erosion: Grazinglands -- Soil Health Concepts on Rangeland -- Fire Dynamics on Hydrology and Erosion -- Grazing Effects on Rangeland Hydrology and Erosion -- Influence of Livestock Grazing and Trampling on Hydrology -- Summary -- Soil Erosion and Sediment Production on Watersheds -- Hydrologic Effects of Range Improvement Practices -- Riparian Vegetation and Grazing -- Summary and Conclusions -- References -- Chapter 6: Organic Matter: The Whole Truth and Nothing but the Truth -- Introducing Carbon -- Global Carbon Cycle -- Organic Matter Content in Soil -- Carbon Budgets and Balance in Terrestrial Ecosystems -- Biogeochemical Cycles -- Conceptual Flow of Soil Organic Matter and Associated Nutrients -- Carbon Sequestration Potentials and Benefits of Conservation Management -- Soil Loss Effects on Carbon Budget -- Open Burning Effects on Carbon Balance -- Contribution of Plant Residues to Soil Organic Matter and Fertility -- Cropland -- Grazingland -- Grazing and Haying Effects on Soil Organic Carbon -- Carbon Balance Examples in Cropland, Rangeland, Forest, and Garden Settings -- Manure Applications and Carbon Balance -- Quick Facts Regarding Manure? (Tables 6.11 and 6.12) Manure Applications and Nitrogen Dynamics -- Organic Matter Fact Sheet -- Global Carbon -- Soils -- Microbial Roles in SOM Formation -- Manure -- References -- Chapter 7: Soil-Hydrology-Plant Assessment Technologies for Cropland, Rangeland, Pastureland, and Gardens -- Getting to Know Your Soil -- Soil Surveys -- Web Soil Survey -- Basic Steps to Get Started with Web Soil Survey -- References -- Index Soils-Quality
title	Soil Health on the Farm, Ranch, and in the Garden
title_auth	Soil Health on the Farm, Ranch, and in the Garden
title_exact_search	Soil Health on the Farm, Ranch, and in the Garden
title_exact_search_txtP	Soil Health on the Farm, Ranch, and in the Garden
title_full	Soil Health on the Farm, Ranch, and in the Garden
title_fullStr	Soil Health on the Farm, Ranch, and in the Garden
title_full_unstemmed	Soil Health on the Farm, Ranch, and in the Garden
title_short	Soil Health on the Farm, Ranch, and in the Garden
title_sort	soil health on the farm ranch and in the garden
topic	Soils-Quality
topic_facet	Soils-Quality
work_keys_str_mv	AT spaethjrkennethe soilhealthonthefarmranchandinthegarden

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