Sustainable soils : the place of organic matter in sustaining soils and their productivity / Benjamin Wolf, George H. Snyder.

By: Wolf, Benjamin, 1913-.

Contributor(s): Snyder, George H. (George Heft), 1939-.

Material type: materialTypeLabel

BookPublisher: New York : Food Products Press, 2003Description: xx, 352 p. : ill. ; 22 cm. + pbk.ISBN: 1560229160 ; 1560229179 .Subject(s): Humus

| Conservation tillage

DDC classification: 631.451

Contents:

Intensive agriculture and food production -- Basic concepts of organic matter -- Organic matter as a source of nutrients -- Physical qualities -- Biological effects of organic matter -- Adding organic matter -- Adding organic matter not grown in place -- Placement of organic matter -- Conservation tillage -- Changes brought about by conservation tillage -- Putting it all together: combining organic matter additions with conservation tillage.

Holdings
Item type	Current library	Call number	Copy number	Status	Date due	Barcode	Item holds
General Lending	MTU Bishopstown Library Lending	631.451 (Browse shelf(Opens below))	1	Available		00131547
General Lending	MTU Bishopstown Library Lending	631.451 (Browse shelf(Opens below))	1	Available		00131544

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Enhanced descriptions from Syndetics:

Find the right balance of organic matter, tillage, and chemical additives to increase the quality and quantity of crops!

This book shows the importance of organic matter in maintaining crop production. The addition of organic matter to soil is covered in great detail. This book is unique in that it draws on practical farming operations to illustrate many of the points discussed. The senior author has had almost 60 years of experience in solving production problems--many of which have been related to insufficient organic matter.

In addition, Sustainable Soils: The Place of Organic Matter in Sustaining Soils and Their Productivity stresses the necessity of combining the addition of organic matter with reduced tillage and added chemicals. Photographs, tables, and figures, as well as appendixes containing common and botanical names of plants, symbols and abbreviations found in the text, and useful conversion factors and data help bring the information into focus quickly and efficiently. An extensive bibliography points the way to other useful material on this subject.

Sustainable Soils discusses: what materials can be added techniques for proper handling of organic matter how much is enough (and how much is too much!) the nutritive value of various forms of organic matter the benefits that can be expected from properly handling and adding organic matter to soil From the Editors: "Sustainable agriculture is not possible without a sustainable soil science, which in turn is largely dependent on organic matter. It is necessary to return large amounts of organic matter to the soil in order to maintain satisfactory crop production. It can be derived from crop residues, cover crops, sods, or various wastes, such as manures, sludges, and composts. This book details the benefits of various forms, and how each should be handled for maximum returns." and efficiently. An extensive bibliography points the way to other useful material on this subject.

Sustainable Soils discusses: what materials can be added techniques for proper handling of organic matter how much is enough (and how much is too much!) the nutritive value of various forms of organic matter the benefits that can be expected from properly handling and adding organic matter to soil From the Editors: "Sustainable agriculture is not possible without a sustainable soil science, which in turn is largely dependent on organic matter. It is necessary to return large amounts of organic matter to the soil in order to maintain satisfactory crop production. It can be derived from crop residues, cover crops, sods, or various wastes, such as manures, sludges, and composts. This book details the benefits of various forms, and how each should be handled for maximum returns." returns."

Bibliography: P. 335-345. - Includes index.

CIT Module AGRI 6004 - Core reading

CIT Module BIOL 6011 - Core reading

CIT Module AGRI 7004 - Core reading

CIT Module AGRI 7006 - Core reading

Table of contents provided by Syndetics

Foreword (p. ix)
Preface (p. xiii)
Acknowledgment (p. xix)
Chapter 1. Intensive Agriculture and Food Production (p. 1)
Problems with Intensive Agriculture (p. 2)
Correcting Problems Associated with Intensive Agriculture (p. 3)
Alternative Agriculture (p. 8)
Sustainable Agriculture (p. 11)
Sustainable Soil Science (p. 12)
Increasing Organic Matter, Sustainable Agriculture, and the Need for Inputs (p. 15)
Chapter 2. Basic Concepts of Organic Matter (p. 19)
Decomposition of Organic Matter (p. 19)
SOM and Humus (p. 23)
Environmental Conditions Affecting Decomposition (p. 26)
Extent of Decomposition (p. 33)
Losses of SOM and Crop Yields (p. 33)
Increasing Soil Organic Matter (p. 35)
Negative Aspects of Organic Matter Additions (p. 37)
Chapter 3. Organic Matter As a Source of Nutrients (p. 45)
Organic Matter and Nutrient Supply (p. 46)
Nutrients Released from Organic Matter (p. 48)
Nutrient Release (p. 54)
Indirect Effects of Organic Matter on Nutrient Availability (p. 57)
Accounting for Nutrients in Organic Matter (p. 64)
Chapter 4. Physical Qualities (p. 79)
Soil Structure (p. 80)
Porosity (p. 84)
Bulk Density (p. 91)
Compaction (p. 93)
Infiltration and Percolation (p. 95)
Aggregate Stability (p. 98)
Moisture-Holding Capacity (p. 99)
Erosion (p. 102)
Chapter 5. Biological Effects of Organic Matter (p. 105)
Soil Organisms and Their Functions (p. 105)
Processes Vital to Soil Health (p. 118)
Controlling Pests by Harnessing Soil Organisms and Organic Matter (p. 125)
Chapter 6. Adding Organic Matter (p. 137)
Growing Organic Matter in Place (p. 137)
Plant Residues (p. 162)
Chapter 7. Adding Organic Matter Not Grown in Place (p. 169)
Manure (p. 170)
Compost (p. 178)
Loamless Composts (p. 183)
Sewage Effluents and Biosolids (p. 187)
Peats (p. 191)
High-Analysis Animal and Other Wastes (p. 192)
Chapter 8. Placement of Organic Matter (p. 199)
Incorporating OM (p. 199)
Plastic Mulch (p. 200)
Natural Organic Mulches (p. 201)
Types of Natural Organic Mulch (p. 205)
Deleterious Effects of Organic Mulches (p. 217)
Providing Protection from Pests by Using Organic Mulches (p. 224)
Chapter 9. Conservation Tillage (p. 227)
Increasing Soil Organic Matter (p. 227)
Other Benefits of Reduced Tillage (p. 228)
Reduction in Costs (p. 234)
No-Tillage (p. 234)
Reduced Tillage (p. 237)
Pest Problems with Conservation Tillage (p. 241)
Corrective Measures (p. 246)
Chapter 10. Changes Brought About by Conservation Tillage (p. 249)
Cultural Methods (p. 249)
Fertility Changes (p. 256)
Pests (p. 263)
Plant Diseases (p. 267)
Nematodes (p. 272)
Weeds (p. 273)
Miscellaneous Pests (p. 283)
Chapter 11. Putting It All Together: Combining Organic Matter Additions with Conservation Tillage (p. 285)
Basic Approaches (p. 285)
Adding Organic Matter (p. 288)
Supplying Needed Nutrients (p. 297)
Controlling Pests (p. 298)
Adding Water (p. 305)
Equipment for Conservation Tillage (p. 307)
Summary (p. 313)
Appendix 1. Common and Botanical Names of Plants (p. 319)
Appendix 2. Abbreviations and Symbols Used in This Book (p. 327)
Appendix 3. Useful Conversion Factors and Data (p. 331)
Bibliography (p. 335)
Index (p. 347)

Reviews provided by Syndetics

CHOICE Review

This book compares methods of intensive agriculture with organic farming and recommends a combination approach. Whereas the intensive system reduces sustainability by adding too many chemicals, the organic approach cannot provide the world with enough food. Wolf (a consultant soil scientist) and Snyder (Univ. of Florida) explain that a rich content of soil organic matter is important to maintain high-quality food production in an environmentally friendly way. The addition of large amounts of organic matter improves the physical properties of soils, releases more nutrients, and provides improved conditions for the growth of beneficial soil organisms. Organic matter can be added as manure, by the growth of green manure in place, or with the addition of peat, compost, or agricultural and food-processing wastes. Soil organic matter is also affected by the amount of tillage. The authors present a comprehensive argument that farmers should add large amounts of organic matter but should also apply fertilizers and pesticides when needed. Additionally their approach recommends the use of crop rotation, mulching, and an irrigation program compatible with conservation tillage. With many useful tables, this book will be very valuable for agricultural libraries. ^BSumming Up: Highly recommended. Lower-division undergraduates through professionals. P. M. Bradley Worcester State College

Author notes provided by Syndetics

George H. Snyder is Distinguished Professor of Soil and Water Science at The University of Florida's Everglades Research and Education Center in Belle Glade.