توضیحاتی در مورد کتاب :
سیاست های ترویج رشد کشاورزی حامی فقرا کلید کمک به کشورها برای دستیابی به اهداف توسعه هزاره به ویژه هدف کاهش فقر و گرسنگی به نصف تا سال 2015 است. بخش کاهش فقر روستایی و حفظ منابع طبیعی است. این مسیرها شامل مشارکت جوامع روستایی، علم و فناوری، تولید دانش و یادگیری بیشتر، ارتقای ظرفیت و نهادسازی است. مدیریت پایدار زمین (SLM) یکی از اجزای اساسی چنین سیاست هایی به تضمین بهره وری کشاورزی، جنگلداری، شیلات و هیدرولوژی کمک می کند. SLM همچنین از طیف وسیعی از خدمات اکوسیستمی که کشاورزی به آنها وابسته است پشتیبانی خواهد کرد. کتاب منبع مدیریت پایدار زمین یک مخزن دانش از شیوه های آزمایش شده و رویکردهای نوآورانه مدیریت منابع ارائه می دهد. منوی متنوع گزینه ها نشان دهنده وضعیت فعلی هنر شیوه های خوب مدیریت زمین است. بخش اول نیاز و دامنه تولید SLM و مواد غذایی را در رابطه با مسائل بین بخشی مانند منابع آب شیرین و جنگل، آب و هوای منطقه و کیفیت هوا، و تعامل با بیماری های عفونی موجود و در حال ظهور، شناسایی می کند. بخش دوم تنوع سیستم های مدیریت زمین در سطح جهانی و استراتژی های بهبود معیشت خانوارها را در هر نوع سیستم طبقه بندی می کند. بخش سوم طیفی از یادداشتهای سرمایهگذاری را ارائه میکند که عملکرد خوب را خلاصه میکند، و همچنین پروفایلهای فعالیت نوآورانهای که طراحی سرمایهگذاریهای موفق یا نوآورانه را برجسته میکند. بخش چهارم منابع مبتنی بر وب با دسترسی آسان و مرتبط برای مدیران زمین و منابع طبیعی را فراهم می کند.
فهرست مطالب :
CONTENTS......Page 6
PREFACE......Page 10
ACKNOWLEDGMENTS......Page 12
ABBREVIATIONS......Page 14
PART I Sustainable Land Management: Challenges and Opportunities......Page 16
CHAPTER 1 Overview......Page 18
Box 1.1 Ecosystem Services......Page 19
DEFINITION OF SUSTAINABLE LAND MANAGEMENT......Page 20
Figure 1.1 Global Food Production, Food Prices, and Undernourishment in Developing Countries, 1961–2003......Page 21
PRODUCTION LANDSCAPES: THE CONTEXT FOR LAND MANAGEMENT......Page 24
LAND MANAGEMENT TRADE-OFFS......Page 27
DIVERSITY OF LAND MANAGEMENT SYSTEMS AND POVERTY ALLEVIATION......Page 28
Box 1.4 Household Strategies to Improve Livelihoods......Page 31
PART II Major Farming Systems: Investment Options and Innovations......Page 36
CHAPTER 2 Introduction......Page 38
POTENTIALS FOR POVERTY REDUCTION AND AGRICULTURAL GROWTH......Page 40
INVESTMENT NOTE 3.1 Science and Local Innovation Make Livestock More Profitable and Friendlier to the Environment in Central America......Page 42
INVESTMENT NOTE 3.2 An Approach to Sustainable Land Management by Enhancing the Productive Capacity of African Farms: The Case of the Underused and Versatile Soybean
......Page 49
INVESTMENT NOTE 3.3 Balancing Rainforest Conservation and Poverty Reduction......Page 54
INVESTMENT NOTE 3.4 Groundwater Declines and Land Use: Looking for the Right Solutions......Page 60
INVESTMENT NOTE 3.5 Environmental Services Payments and Markets: A Basis for Sustainable Land Resource Management?......Page 66
INNOVATIVE ACTIVITY PROFILE 3.1 Species Diversity in Fallow Lands of Southern Cameroon: Implications for Management of Constructed Landscapes......Page 71
INNOVATIVE ACTIVITY PROFILE 3.2 Domestication and Commercialization of Forest Tree Crops in the Tropics......Page 75
INNOVATIVE ACTIVITY PROFILE 3.3 Avoided Deforestation with Sustainable Benefits: Reducing Carbon Emissions from Deforestation and Land Degradation......Page 80
INNOVATIVE ACTIVITY PROFILE 3.4 On-Farm Integration of Freshwater Agriculture and Aquaculture in the Mekong Delta of Vietnam: The Role of the Pond and Its Effect on Livelihoods of Resource-Poor Farmers......Page 86
POTENTIALS FOR POVERTY REDUCTION AND AGRICULTURAL GROWTH......Page 92
INVESTMENT NOTE 4.1 No-Burn Agricultural Zones on Honduran Hillsides: Better Harvests, Air Quality, and Water Availability by Way of Improved Land Management......Page 93
INVESTMENT NOTE 4.2 Beans: Good Nutrition, Money, and Better Land Management—Appropriate for Scaling Up in Africa?......Page 98
INNOVATIVE ACTIVITY PROFILE 4.1 Fodder Shrubs for Improving Livestock Productivity and Sustainable Land Management in East Africa......Page 103
POTENTIALS FOR POVERTY REDUCTION AND AGRICULTURAL GROWTH......Page 110
INVESTMENT NOTE 5.1 Integrating Land and Water Management in Smallholder Livestock Systems in Sub-Saharan Africa......Page 111
INVESTMENT NOTE 5.2 Integrated Nutrient Management in the Semiarid Tropics......Page 118
INVESTMENT NOTE 5.3 Integrated Natural Resource Management for Enhanced Watershed Function and Improved Livelihoods......Page 123
INVESTMENT NOTE 5.4 Enhancing Mobility of Pastoral Systems in Arid and Semiarid Regions of Sub-Saharan Africa to Combat Desertification......Page 129
INVESTMENT NOTE 5.5 Sustainable Land Management in Marginal Dry Areas of the Middle East and North Africa: An Integrated Natural Resource Management......Page 135
INVESTMENT NOTE 5.6 Adaptation and Mitigation Strategies in Sustainable Land Management Approaches to Combat the Impacts of Climate Change......Page 141
INNOVATIVE ACTIVITY PROFILE 5.1 High-Value Cash Crops for Semiarid Regions: Cumin Production in Khanasser, Syrian Arab Republic......Page 146
INNOVATIVE ACTIVITY PROFILE 5.2 Economic and Sustainable Land Management Benefits of the Forage Legume: Vetch......Page 148
INNOVATIVE ACTIVITY PROFILE 5.3 Participatory Barley-Breeding Program for Semiarid Regions......Page 149
INNOVATIVE ACTIVITY PROFILE 5.4 Climate Risk Management in Support of Sustainable Land Management......Page 151
INNOVATIVE ACTIVITY PROFILE 5.5 Land Degradation Surveillance: Quantifying and Monitoring Land Degradation......Page 156
PART III Web-Based Resources......Page 164
HYDROLOGICAL DATA AND DIGITAL WATERSHED MAPS......Page 166
Figure 6.3 HydroSHEDS Database......Page 168
Figure 6.4 The Distributed Hydrology Soil Vegetation Model......Page 169
Figure 6.7 Comparison of CLAS High-Resolution Processing with Standard Landsat Processing......Page 171
AGRICULTURAL PRODUCTION REGIONS AND MODIS: NASA’S MODERATE RESOLUTION IMAGING SPECTRORADIOMETER......Page 172
GLOSSARY......Page 176
INDEX......Page 182
FIGURES......Page 8
Box 1.3 Pressure-State-Response Framework......Page 29
Box 1.5 Key Safeguard Policy Issues for SLM and Natural Resource Management Investments......Page 33
Box 3.1 Example of Pasture Rehabilitation and Intensification from Honduras......Page 45
Figure 3.3 Irrigation History of Luancheng County: Estimated Pumping for Irrigation, 1949–99......Page 61
Table 3.3 Incidence of Costs and Benefits for Environmental Services......Page 67
Box 5.1 Steps in the Diagnostic Surveillance Framework......Page 158
Box 5.2 Steps in the Land Degradation Surveillance Framework......Page 160
Figure 1.2 Typical Set of Production Activities (Forestry, Crop and Livestock Production, Hydropower, and Coastal Fisheries) Encountered in a Production Landscape......Page 22
Figure 1.3 World Comparisons of Food Production and Consumption 2003......Page 25
Figure 3.1 Months of Consecutive Dry Season......Page 43
Figure 3.2 Nigerian Soybean Production (1988–2006) and Markets in Ibadan (1987–2000)......Page 50
Figure 3.4 General Relationships between Precipitation and Evapotranspiration for Cropland in Luancheng County, 1947–2000......Page 62
Figure 3.5 Hydronomic Zones in a River Basin......Page 63
Figure 3.6 Schematic Trade-off between Reduced GHG Emissions through Avoided Deforestation and National Economic Development Opportunities......Page 83
Figure 3.7 Area and Production Increases in Freshwater Aquaculture in Vietnam, 1999–2005......Page 87
Figure 3.8 Bioresource Flows of an IAA Pond with Medium-Input Fish Farming in the Mekong Delta......Page 89
Figure 5.1 Effect of Watershed Interventions on Groundwater Levels at Two Benchmark Sites in India......Page 126
Figure 5.2 Application of the Multilevel Analytical Framework to the Management of Olive Orchards on Hill Slopes at Khanasser Valley......Page 139
Figure 5.3 Successive Samples of Land Degradation Problem Domains at a Hierarchy of Scales Using Satellite Imagery, Ground Sampling, and Laboratory Analysis of Soils by Infrared Spectroscopy......Page 159
Figure 6.2 USDA-FAS Global Reservoir and Lake Monitor......Page 167
Figure 6.6 Dartmouth Flood Observatory Map......Page 170
Figure 6.8 MODIS Image Gallery......Page 173
Figure 6.9 Integrated and Operational Land Observation System......Page 174
TABLES......Page 9
Table 1.1 Comparison of Farming Systems by Category......Page 30
Table 3.1 Forage Use and Production Criteria......Page 44
Table 3.2 ASB Summary Matrix: Forest Margins of Sumatra......Page 55
Table 3.4 Total Number of Plant Species Recorded in Three Fallow Types in the Humid Forest Zone of Southern Cameroon......Page 73
Table 3.5 List of the Four Most Preferred Priority Indigenous Fruit Tree Species in Selected Regions......Page 76
Table 3.6 Percentage of Farm Households Practicing Freshwater Aquaculture in 2000 and 2004 by Wealth Groups......Page 88
Table 4.1 Farmers Planting Fodder Shrubs in Kenya, Northern Tanzania, Rwanda, and Uganda......Page 106
Table 5.1 Chemical Characteristics of 924 Soil Samples Collected from Farmers’ Fields in Three Districts of Andhra Pradesh, India, 2002–04......Page 119
Table 5.2 Biological and Chemical Properties of Semiarid Tropical Vertisols......Page 120
Table 5.3 Nutrient Composition of Vermicompost......Page 121
Table 5.4 Seasonal Rainfall, Runoff, and Soil Loss from Different Benchmark Watersheds in India and Thailand......Page 125
Table 5.5 Major Strengths, Weaknesses, Opportunities, and Threats for the Khanasser Valley as an Example of Marginal Drylands......Page 136
Table 5.6 Technological Interventions Introduced in the Khanasser Valley......Page 138
توضیحاتی در مورد کتاب به زبان اصلی :
Policies promoting pro-poor agricultural growth are the key to help countries achieve the Millennium Development Goals especially the goal of halving poverty and hunger by 2015. The public sector, private sector, and civil society organizations are working to enhance productivity and competitiveness of the agricultural sector to reduce rural poverty and sustain the natural resource base. The pathways involve participation by rural communities, science and technology, knowledge generation and further learning, capacity enhancement, and institution building. Sustainable land management (SLM) an essential component of such policies will help to ensure the productivity of agriculture, forestry, fisheries, and hydrology; SLM will also support a range of ecosystem services on which agriculture depends. The Sustainable Land Management Sourcebook provides a knowledge repository of tested practices and innovative resource management approaches. The diverse menu of options represents the current state of the art of good land management practices. Section one identifies the need and scope for SLM and food production in relation to cross-sector issues such as freshwater and forest resources, regional climate and air quality, and interactions with existing and emerging infectious diseases. Section two categorizes the diversity of land management systems globally and the strategies for improving household livelihoods in each system type. Section three presents a range of investment notes that summarize good practice, as well as innovative activity profiles that highlight design of successful or innovative investments. Section four provides easy-to-access, Web-based resources relevant for land and natural resource managers.