This document provides the foreword, preface and list of contributors for the textbook "Agroforestry: Theory and Practices".
The foreword discusses that agroforestry can help increase tree cover outside forests and provides environmental benefits like carbon sequestration. The preface outlines that agroforestry combines trees, crops and livestock in innovative ways, providing sustained products and benefits to farmers. It also notes that the textbook aims to provide up-to-date knowledge on agroforestry principles, techniques and applications.
The list of contributors provides the names and affiliations of over 30 scientists and professors from various universities and research institutions in India who contributed chapters to the textbook.
An analysis on the investment of forestland modelling using the agroforestry...Alexander Decker
1. The document analyzes investment in forestland modeling using agroforestry landscape systems in Kutai Kartanegara District, Indonesia.
2. It studies five forestland models: monoculture super teakwood, super teakwood and durian, monoculture durian, durian and coffee, and rambutan and mahogany.
3. The analysis finds that the super teakwood and durian model generates the highest income and production compared to other models and that all models are financially feasible based on their internal rates of return exceeding minimum acceptability rates.
This document provides biographies of the three authors of the book "Principles of Organic Farming":
- Dr. E. Somasundaram is a professor and head of the Department of Sustainable Organic Agriculture at Tamil Nadu Agricultural University, with over 50 research publications.
- Dr. D. Udhaya Nandhini is a postdoctoral fellow who has authored two books and has 30 research publications.
- Dr. M. Meyyappan is an assistant professor at Annamalai University who has published 26 research papers and authored two books.
This document provides an overview of introductory agroforestry concepts. It defines agroforestry as a land use system involving trees combined with crops and/or livestock. Dr. P.K.R. Nair is identified as the "Father of Agroforestry." Key features of agroforestry systems include having multiple crops including at least one tree crop to produce various outputs. Criteria for good agroforestry include maintaining productivity and sustainability. Agroforestry provides economic, social, and environmental benefits such as increased production, soil conservation, and meeting demand for food and fuel. Selection of appropriate tree species is important to reduce competition with other crops.
Comparative economic analysis of organic and inorganic wheatsanaullah noonari
The production of wheat crop for the year 2012-13 is estimated to be 24.2 million tons against last year’s
production of 23.4 million tons. The major reasons for this enhanced production were increase in support price
from Rs.1050 to Rs.1200 per 40 Kg which encouraged improved seed usage and fertilizers. There was also better
weather and comparatively more water available from the reservoirs. The target for wheat production for 2013-
14 has been fixed at 25.0 million tons. The fertilizer has raised the expenses of the inorganic farmers, which are
not, used in organic farming. Cash cost in case of organic and inorganic farming is Rs. 23053.00 and 25846.00
respectively. The non-cash cost of organic and inorganic are Rs.19389.65 and 18815.10 respectively. Total cost
is the combination of cash and non-cash costs that is Rs.42442.65 and 44661.00 in organic and inorganic
farming. Gross margin (GM) is obtained by subtracting the cash cost from the gross value of product. GM is
Rs.33142.65 and 36182.00 in organic and inorganic farming system. Net income is obtained by subtracting the
total cost from the gross value of product. It is Rs.13752.35 and Rs.17367.00 in organic and inorganic farming,
respectively showing a difference of Rs.2615.35. The analysis shows that low net income in organic farming
than the inorganic farming is due to the low yield and high labor cost in organic system. Secondly health and
environmental costs are not included in the analysis, because in the study site farmers are unaware of these costs.
Keywords: Wheat, organic, Inorganic, support price, environmental costs, Pakistan
Agroforestry has a high potential for simultaneously satisfying three important objectives viz., protecting and also stabilizing the ecosystems; producing a high level of output of economic goods; and improving the income and basic materials to the rural population. It has helped in the rehabilitation of the degraded lands on the one hand and has increased farm productivity on the other. At present, agroforestry meets almost half of the demand for fuelwood, 2/3 of the small timber, approx. 70-80 per cent wood for plywood, 60 per cent raw material for paper pulp and approx. 9-11 per cent of the green fodder requirement of livestock, besides meeting the subsistence needs of the households for food, fruit, fiber, medicine etc.
The document summarizes the work of the World Agroforestry Centre's Genetic Resources Programme 2 (GRP2). It discusses GRP2's goals of developing agroforestry options to improve smallholder farming systems productivity and resilience. Key projects and research in Latin America, Southeast Asia, and Africa are highlighted. Models and tools for analyzing agroforestry systems are also summarized. The document outlines GRP2's linkages and contributions to other CGIAR Research Programs.
This document provides an overview of agroforestry in Bangladesh. It discusses the characteristics, attributes, components, and types of agroforestry systems. It also covers the historical development of agroforestry in Bangladesh, including the establishment of various programs and research initiatives over time. The document outlines shifting cultivation and the taungya system, and compares their differences. It notes the environmental, economic, and social benefits of agroforestry, as well as some limitations. An introduction to Bangladeshi forests is given, along with the different forest types. Similarities and differences between conventional forests, social forests, and agroforestry are highlighted. The document concludes by discussing the scope for expanding agroforestry in
An analysis on the investment of forestland modelling using the agroforestry...Alexander Decker
1. The document analyzes investment in forestland modeling using agroforestry landscape systems in Kutai Kartanegara District, Indonesia.
2. It studies five forestland models: monoculture super teakwood, super teakwood and durian, monoculture durian, durian and coffee, and rambutan and mahogany.
3. The analysis finds that the super teakwood and durian model generates the highest income and production compared to other models and that all models are financially feasible based on their internal rates of return exceeding minimum acceptability rates.
This document provides biographies of the three authors of the book "Principles of Organic Farming":
- Dr. E. Somasundaram is a professor and head of the Department of Sustainable Organic Agriculture at Tamil Nadu Agricultural University, with over 50 research publications.
- Dr. D. Udhaya Nandhini is a postdoctoral fellow who has authored two books and has 30 research publications.
- Dr. M. Meyyappan is an assistant professor at Annamalai University who has published 26 research papers and authored two books.
This document provides an overview of introductory agroforestry concepts. It defines agroforestry as a land use system involving trees combined with crops and/or livestock. Dr. P.K.R. Nair is identified as the "Father of Agroforestry." Key features of agroforestry systems include having multiple crops including at least one tree crop to produce various outputs. Criteria for good agroforestry include maintaining productivity and sustainability. Agroforestry provides economic, social, and environmental benefits such as increased production, soil conservation, and meeting demand for food and fuel. Selection of appropriate tree species is important to reduce competition with other crops.
Comparative economic analysis of organic and inorganic wheatsanaullah noonari
The production of wheat crop for the year 2012-13 is estimated to be 24.2 million tons against last year’s
production of 23.4 million tons. The major reasons for this enhanced production were increase in support price
from Rs.1050 to Rs.1200 per 40 Kg which encouraged improved seed usage and fertilizers. There was also better
weather and comparatively more water available from the reservoirs. The target for wheat production for 2013-
14 has been fixed at 25.0 million tons. The fertilizer has raised the expenses of the inorganic farmers, which are
not, used in organic farming. Cash cost in case of organic and inorganic farming is Rs. 23053.00 and 25846.00
respectively. The non-cash cost of organic and inorganic are Rs.19389.65 and 18815.10 respectively. Total cost
is the combination of cash and non-cash costs that is Rs.42442.65 and 44661.00 in organic and inorganic
farming. Gross margin (GM) is obtained by subtracting the cash cost from the gross value of product. GM is
Rs.33142.65 and 36182.00 in organic and inorganic farming system. Net income is obtained by subtracting the
total cost from the gross value of product. It is Rs.13752.35 and Rs.17367.00 in organic and inorganic farming,
respectively showing a difference of Rs.2615.35. The analysis shows that low net income in organic farming
than the inorganic farming is due to the low yield and high labor cost in organic system. Secondly health and
environmental costs are not included in the analysis, because in the study site farmers are unaware of these costs.
Keywords: Wheat, organic, Inorganic, support price, environmental costs, Pakistan
Agroforestry has a high potential for simultaneously satisfying three important objectives viz., protecting and also stabilizing the ecosystems; producing a high level of output of economic goods; and improving the income and basic materials to the rural population. It has helped in the rehabilitation of the degraded lands on the one hand and has increased farm productivity on the other. At present, agroforestry meets almost half of the demand for fuelwood, 2/3 of the small timber, approx. 70-80 per cent wood for plywood, 60 per cent raw material for paper pulp and approx. 9-11 per cent of the green fodder requirement of livestock, besides meeting the subsistence needs of the households for food, fruit, fiber, medicine etc.
The document summarizes the work of the World Agroforestry Centre's Genetic Resources Programme 2 (GRP2). It discusses GRP2's goals of developing agroforestry options to improve smallholder farming systems productivity and resilience. Key projects and research in Latin America, Southeast Asia, and Africa are highlighted. Models and tools for analyzing agroforestry systems are also summarized. The document outlines GRP2's linkages and contributions to other CGIAR Research Programs.
This document provides an overview of agroforestry in Bangladesh. It discusses the characteristics, attributes, components, and types of agroforestry systems. It also covers the historical development of agroforestry in Bangladesh, including the establishment of various programs and research initiatives over time. The document outlines shifting cultivation and the taungya system, and compares their differences. It notes the environmental, economic, and social benefits of agroforestry, as well as some limitations. An introduction to Bangladeshi forests is given, along with the different forest types. Similarities and differences between conventional forests, social forests, and agroforestry are highlighted. The document concludes by discussing the scope for expanding agroforestry in
This document provides a summary of Ghalia Martini's experience and qualifications. She has over 30 years of experience in ecosystem management, forest ecology, and protected area management. She holds a PhD in Forest Ecology from Aleppo University and has worked as a professor there since 2012. Her research has focused on biodiversity monitoring, plant community analysis, and the impacts of forest fires. She has extensive experience managing conservation projects and advising the Syrian government and international organizations on forest policy and management.
The International Journal of Engineering and Science (The IJES)theijes
This document summarizes a study on the environmental awareness of rural residents in Hamirpur District, Himachal Pradesh, India. The study surveyed 1208 residents across 25 villages. It assessed their awareness of different environmental issues through a questionnaire. The results showed high awareness of local issues like air, water, and noise pollution, but lower awareness of global issues like climate change. Most respondents gained environmental knowledge from TV and newspapers. While awareness levels were reasonably high, more work is still needed to increase awareness and promote environmentally responsible behavior.
This document discusses sustainable agriculture and the role of vermicompost and earthworms. It begins by describing the negative impacts of chemical agriculture on the environment, soil health, and food safety. It then discusses the need for a "second green revolution" through organic farming and sustainable agriculture. Vermicompost is highlighted as a powerful organic fertilizer that can maintain and enhance farm production without chemicals. Several studies are cited showing that earthworms and vermicompost can rebuild soils and sustain crop yields organically. The movement toward organic farming and sustainable agriculture internationally is also summarized.
This document discusses sustainable agriculture and the role of vermicompost and earthworms. It begins by describing the negative impacts of chemical agriculture on the environment, soil health, and food safety. It then discusses the need for a "second green revolution" through organic farming and sustainable agriculture. Vermicompost is highlighted as a powerful organic fertilizer that can maintain and enhance farm production without chemicals. The document provides examples of movements toward sustainable agriculture through organic farming and vermiculture in countries like India, the US, and Sweden. It emphasizes that sustainable agriculture using vermicompost can ensure long-term food security while protecting resources.
1) The survey identified 38 species of flowers, 11 species of fruits, 13 species of vegetables, 24 species of woody plants, 16 species of ornamental plants, and 11 species of medicinal plants at the Islamic University campus.
2) The most common flower species was Dahlia with an estimated population of 790 plants. The most abundant woody species was Patabahar with 1874 plants.
3) Native species made up most of the plants identified, though some ornamental and flower species were exotic. Proper conservation of exotic species was lacking.
4) The survey provides baseline data on plant diversity at the university that can be used for comparison over time to monitor changes in biodiversity.
Enhancing forage availability and ecosystem services through hortipastoral sy...Dr Suheel Ahmad
This document provides an outline for a presentation on enhancing forage availability and ecosystem services through hortipastoral systems. It discusses definitions of agroforestry, current area under agroforestry worldwide and in India. It describes how agroforestry and hortipasture systems can increase forage production and ecosystem services while addressing constraints. National policies related to forestry, agroforestry, livestock and fodder management are also summarized.
13. Example of sustainable agriculture in practice - Update (1).pdfAnnisaFanda
The document discusses sustainable agriculture practices including crop rotation, integrated pest management, agroforestry techniques like alley cropping and forest farming, and the System of Rice Intensification. It describes the benefits of complex rice systems which integrate rice cultivation with fish and ducks using techniques like jajar legowo. These complex systems improve yields, reduce inputs, and have more stable production compared to conventional systems. The document concludes that biodiversity in agriculture provides ecosystem services and synergies for sustainable production.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
1) The document discusses a study on the growth and yield of two types of aroids (Pondial kachu and Panchamukhi kachu) under different agroforestry systems providing various light levels.
2) The highest yields of both Pondial kachu (32.27 t/ha) and Panchamukhi kachu (30.60 t/ha) were obtained under a coconut and guava agroforestry system (T4) which allowed 70-80% photosynthetically active radiation (PAR).
3) In general, plant height and leaf length of the aroids increased with decreasing light levels. The tallest plants and
- Agroecology is an approach that can increase agricultural productivity and sustainability by optimizing the use of local resources through diversification and minimizing external inputs.
- Key principles of agroecology include recycling nutrients on the farm, integrating crops and livestock, and focusing on interactions across the entire agricultural system.
- Agroecological practices maintain biodiversity through various techniques like crop rotation, cover crops, and agroforestry systems, which improve pest regulation, nutrient recycling, and ecosystem functions to increase yields over the long term in a sustainable way.
This document provides information about organic farming in India. It discusses the emergence and growth of organic agriculture in India. The area under certified organic farming in India has grown nearly 29-fold in the last 5 years, reaching over 4.48 million hectares by 2010, including 1.08 million hectares of cultivated area and 3.4 million hectares of wild harvest collection. The growth includes farmers adopting organic practices for traditional reasons, to address issues with conventional farming, and commercially to access premium markets.
The document provides recommendations for rice cultivation in the subtropical zone of Jammu region, including suitable high yielding rice varieties for different situations, promising rice-based cropping systems, and cultivation practices such as land preparation, nursery raising, transplanting, nutrient management, water management, weed control, and plant protection. Recommended varieties include coarse, fine, and superfine varieties suited to irrigated and rainfed conditions up to 1200 meters above mean sea level.
This document summarizes research on organic farming for crop improvement and sustainable agriculture. It discusses the principles and components of organic farming, including crop rotation, green manuring, composting, and recycling of organic wastes and byproducts. The four main pillars of organic farming are identified as health, ecology, fairness, and care. Organic farming techniques like intercropping and mulching are described as alternatives to chemical fertilizers and pesticides. Overall the document presents organic farming as a method to attain sustainable agriculture goals like maintaining soil quality and natural resources while meeting food demands.
This document discusses organic farming as an alternative to conventional agriculture. It provides background on the status and principles of organic farming globally and describes its key components. Organic farming aims to sustainably manage resources, enhance soil health and quality of crops/food, while maintaining environmental quality. The four main pillars of organic farming are health, ecology, fairness and care. Components include crop rotations, use of organic wastes and manures, non-chemical weed control, and recycling of on-farm and industrial wastes. Organic farming is presented as a more sustainable agricultural system compared to conventional practices.
IRJET- Ecological Impact of Planting Indigenous Plants Instead of Exotic ...IRJET Journal
1. The study assesses the ecological impact of planting indigenous fruit-bearing plants and trees instead of exotic Acacia trees in Anchal, India.
2. Acacia trees are fast-growing but non-native species that may deplete groundwater and negatively impact the environment. Indigenous species are better suited to the local ecology.
3. The objectives are to evaluate the benefits of indigenous plants for restoring the local ecology and environment, and to assess the social and ecological impacts of Acacia monocultures compared to mixed indigenous plantations.
Development of holistic metrics of agricultural and food system performanceFrancois Stepman
Presentation by Fergus Sinclair - Chief Scientist CIFOR-ICRAF, Center for International Forest Research - World Agroforestry, Co-convener of the TPP, the Transformative Partnership Platform on Agroecology - "Development of holistic metrics of agricultural and food system performance"
Agroecology is the study of agricultural systems and their interaction with the environment. It focuses on optimizing locally available resources through practices like crop rotation, polycultures, and agroforestry to reduce reliance on external inputs. Key principles of agroecology include recycling nutrients on the farm, integrating crops and livestock, and maintaining biodiversity. Agroecological strategies can improve productivity and sustainability while conserving natural resources long-term.
Short Stories To Write Ideas - Pagspeed. Online assignment writing service.Andrew Parish
This document provides instructions for requesting writing assistance from HelpWriting.net. It outlines a 5-step process: 1) Create an account with a password and email. 2) Complete a 10-minute order form providing instructions, sources, and deadline. 3) Review bids from writers and choose one based on qualifications. 4) Receive the paper and authorize payment if pleased. 5) Request revisions to ensure satisfaction, with a refund option for plagiarized work. The service aims to provide original, high-quality content through a bidding system and revision process.
Jacksonville- Michele Norris Communications And The Media DietAndrew Parish
The document discusses the benefits of the minimum legal driving age. It begins by stating that the minimum legal driving age should not be increased to 18 because that would not help decrease the rate of teen accidents. While some argue accidents caused by teens justify a higher age, the document counters that maturity levels vary and delaying licensure could reduce overall experience and skills. Restricting mobility may also restrict opportunities for work, education and independence. Raising the age could even have unintended consequences of increased risk-taking.
This document provides a summary of Ghalia Martini's experience and qualifications. She has over 30 years of experience in ecosystem management, forest ecology, and protected area management. She holds a PhD in Forest Ecology from Aleppo University and has worked as a professor there since 2012. Her research has focused on biodiversity monitoring, plant community analysis, and the impacts of forest fires. She has extensive experience managing conservation projects and advising the Syrian government and international organizations on forest policy and management.
The International Journal of Engineering and Science (The IJES)theijes
This document summarizes a study on the environmental awareness of rural residents in Hamirpur District, Himachal Pradesh, India. The study surveyed 1208 residents across 25 villages. It assessed their awareness of different environmental issues through a questionnaire. The results showed high awareness of local issues like air, water, and noise pollution, but lower awareness of global issues like climate change. Most respondents gained environmental knowledge from TV and newspapers. While awareness levels were reasonably high, more work is still needed to increase awareness and promote environmentally responsible behavior.
This document discusses sustainable agriculture and the role of vermicompost and earthworms. It begins by describing the negative impacts of chemical agriculture on the environment, soil health, and food safety. It then discusses the need for a "second green revolution" through organic farming and sustainable agriculture. Vermicompost is highlighted as a powerful organic fertilizer that can maintain and enhance farm production without chemicals. Several studies are cited showing that earthworms and vermicompost can rebuild soils and sustain crop yields organically. The movement toward organic farming and sustainable agriculture internationally is also summarized.
This document discusses sustainable agriculture and the role of vermicompost and earthworms. It begins by describing the negative impacts of chemical agriculture on the environment, soil health, and food safety. It then discusses the need for a "second green revolution" through organic farming and sustainable agriculture. Vermicompost is highlighted as a powerful organic fertilizer that can maintain and enhance farm production without chemicals. The document provides examples of movements toward sustainable agriculture through organic farming and vermiculture in countries like India, the US, and Sweden. It emphasizes that sustainable agriculture using vermicompost can ensure long-term food security while protecting resources.
1) The survey identified 38 species of flowers, 11 species of fruits, 13 species of vegetables, 24 species of woody plants, 16 species of ornamental plants, and 11 species of medicinal plants at the Islamic University campus.
2) The most common flower species was Dahlia with an estimated population of 790 plants. The most abundant woody species was Patabahar with 1874 plants.
3) Native species made up most of the plants identified, though some ornamental and flower species were exotic. Proper conservation of exotic species was lacking.
4) The survey provides baseline data on plant diversity at the university that can be used for comparison over time to monitor changes in biodiversity.
Enhancing forage availability and ecosystem services through hortipastoral sy...Dr Suheel Ahmad
This document provides an outline for a presentation on enhancing forage availability and ecosystem services through hortipastoral systems. It discusses definitions of agroforestry, current area under agroforestry worldwide and in India. It describes how agroforestry and hortipasture systems can increase forage production and ecosystem services while addressing constraints. National policies related to forestry, agroforestry, livestock and fodder management are also summarized.
13. Example of sustainable agriculture in practice - Update (1).pdfAnnisaFanda
The document discusses sustainable agriculture practices including crop rotation, integrated pest management, agroforestry techniques like alley cropping and forest farming, and the System of Rice Intensification. It describes the benefits of complex rice systems which integrate rice cultivation with fish and ducks using techniques like jajar legowo. These complex systems improve yields, reduce inputs, and have more stable production compared to conventional systems. The document concludes that biodiversity in agriculture provides ecosystem services and synergies for sustainable production.
International Journal of Engineering and Science Invention (IJESI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJESI publishes research articles and reviews within the whole field Engineering Science and Technology, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
1) The document discusses a study on the growth and yield of two types of aroids (Pondial kachu and Panchamukhi kachu) under different agroforestry systems providing various light levels.
2) The highest yields of both Pondial kachu (32.27 t/ha) and Panchamukhi kachu (30.60 t/ha) were obtained under a coconut and guava agroforestry system (T4) which allowed 70-80% photosynthetically active radiation (PAR).
3) In general, plant height and leaf length of the aroids increased with decreasing light levels. The tallest plants and
- Agroecology is an approach that can increase agricultural productivity and sustainability by optimizing the use of local resources through diversification and minimizing external inputs.
- Key principles of agroecology include recycling nutrients on the farm, integrating crops and livestock, and focusing on interactions across the entire agricultural system.
- Agroecological practices maintain biodiversity through various techniques like crop rotation, cover crops, and agroforestry systems, which improve pest regulation, nutrient recycling, and ecosystem functions to increase yields over the long term in a sustainable way.
This document provides information about organic farming in India. It discusses the emergence and growth of organic agriculture in India. The area under certified organic farming in India has grown nearly 29-fold in the last 5 years, reaching over 4.48 million hectares by 2010, including 1.08 million hectares of cultivated area and 3.4 million hectares of wild harvest collection. The growth includes farmers adopting organic practices for traditional reasons, to address issues with conventional farming, and commercially to access premium markets.
The document provides recommendations for rice cultivation in the subtropical zone of Jammu region, including suitable high yielding rice varieties for different situations, promising rice-based cropping systems, and cultivation practices such as land preparation, nursery raising, transplanting, nutrient management, water management, weed control, and plant protection. Recommended varieties include coarse, fine, and superfine varieties suited to irrigated and rainfed conditions up to 1200 meters above mean sea level.
This document summarizes research on organic farming for crop improvement and sustainable agriculture. It discusses the principles and components of organic farming, including crop rotation, green manuring, composting, and recycling of organic wastes and byproducts. The four main pillars of organic farming are identified as health, ecology, fairness, and care. Organic farming techniques like intercropping and mulching are described as alternatives to chemical fertilizers and pesticides. Overall the document presents organic farming as a method to attain sustainable agriculture goals like maintaining soil quality and natural resources while meeting food demands.
This document discusses organic farming as an alternative to conventional agriculture. It provides background on the status and principles of organic farming globally and describes its key components. Organic farming aims to sustainably manage resources, enhance soil health and quality of crops/food, while maintaining environmental quality. The four main pillars of organic farming are health, ecology, fairness and care. Components include crop rotations, use of organic wastes and manures, non-chemical weed control, and recycling of on-farm and industrial wastes. Organic farming is presented as a more sustainable agricultural system compared to conventional practices.
IRJET- Ecological Impact of Planting Indigenous Plants Instead of Exotic ...IRJET Journal
1. The study assesses the ecological impact of planting indigenous fruit-bearing plants and trees instead of exotic Acacia trees in Anchal, India.
2. Acacia trees are fast-growing but non-native species that may deplete groundwater and negatively impact the environment. Indigenous species are better suited to the local ecology.
3. The objectives are to evaluate the benefits of indigenous plants for restoring the local ecology and environment, and to assess the social and ecological impacts of Acacia monocultures compared to mixed indigenous plantations.
Development of holistic metrics of agricultural and food system performanceFrancois Stepman
Presentation by Fergus Sinclair - Chief Scientist CIFOR-ICRAF, Center for International Forest Research - World Agroforestry, Co-convener of the TPP, the Transformative Partnership Platform on Agroecology - "Development of holistic metrics of agricultural and food system performance"
Agroecology is the study of agricultural systems and their interaction with the environment. It focuses on optimizing locally available resources through practices like crop rotation, polycultures, and agroforestry to reduce reliance on external inputs. Key principles of agroecology include recycling nutrients on the farm, integrating crops and livestock, and maintaining biodiversity. Agroecological strategies can improve productivity and sustainability while conserving natural resources long-term.
Short Stories To Write Ideas - Pagspeed. Online assignment writing service.Andrew Parish
This document provides instructions for requesting writing assistance from HelpWriting.net. It outlines a 5-step process: 1) Create an account with a password and email. 2) Complete a 10-minute order form providing instructions, sources, and deadline. 3) Review bids from writers and choose one based on qualifications. 4) Receive the paper and authorize payment if pleased. 5) Request revisions to ensure satisfaction, with a refund option for plagiarized work. The service aims to provide original, high-quality content through a bidding system and revision process.
Jacksonville- Michele Norris Communications And The Media DietAndrew Parish
The document discusses the benefits of the minimum legal driving age. It begins by stating that the minimum legal driving age should not be increased to 18 because that would not help decrease the rate of teen accidents. While some argue accidents caused by teens justify a higher age, the document counters that maturity levels vary and delaying licensure could reduce overall experience and skills. Restricting mobility may also restrict opportunities for work, education and independence. Raising the age could even have unintended consequences of increased risk-taking.
020 Rubrics For Essay Example Writing High School English ThatsnotusAndrew Parish
The document provides instructions for requesting writing assistance from the website HelpWriting.net. It outlines a 5-step process: 1) Create an account with a password and email. 2) Complete a 10-minute order form with instructions, sources, and deadline. 3) Review bids from writers and choose one. 4) Receive the paper and ensure it meets expectations before authorizing payment. 5) Request revisions until satisfied with the work. The website promises original, high-quality content and refunds for plagiarized work.
Case Study Sample Paper. A Sample Of Case Study AnaAndrew Parish
This document discusses the tension between liberty and social order that governments face. It notes that while the US strongly values individual freedoms as outlined in the Declaration of Independence, maintaining security and social order can be challenging. The paper will examine problems that the US and other nations encounter in balancing civil liberties with the need for social control and stability.
Need Help To Write Essay. 6 Ways For Writing A Good EAndrew Parish
Dr. Daniel Kendall is an experienced interventional pain medicine specialist with over 17 years of experience treating patients at National Spine and Pain Centers in Virginia, having previously served as chief fellow of pain management at Johns Hopkins Hospital and completed his residency in anesthesiology at Northwestern University Medical School. The document outlines Dr. Kendall's educational background and experience in fields like anesthesiology and pain management, as well as his role in treating patients and educating others in his specialty.
Buy Essay Paper Online Save UPTO 75 On All Essay TypesAndrew Parish
This document discusses how hip hop has globalized and what is considered "real" hip hop in South Korea. It focuses on four hip hop groups from South Korea: Epik High, Dynamic Duo, Drunken Tiger, and Soul Company. One member of Drunken Tiger, Tiger JK, was raised in Los Angeles and experienced localized hip hop there as well as in South Korea. He began writing lyrics to promote peace and harmony in hip hop rather than promote Korean stereotypes. The study found that South Korean hip hop artists practice a form of "glocalization," incorporating both global hip hop elements and local Korean culture and concepts into their music.
Esayy Ruang Ilmu. Online assignment writing service.Andrew Parish
This document provides instructions for requesting writing assistance from HelpWriting.net in 5 steps:
1. Create an account with a password and email.
2. Complete a 10-minute order form providing instructions, sources, deadline and sample work.
3. Writers will bid on the request and the client can choose a writer based on qualifications.
4. The client will receive a paper and can request revisions if needed at no cost.
5. HelpWriting.net promises original, high-quality content and refunds are offered for plagiarized work.
Is There Websites That Write Research Papers Essays For You - Grade BeesAndrew Parish
The document discusses how websites like HelpWriting.net allow students to request that research papers and essays be written for them. The process involves creating an account, submitting a request with instructions and deadline, reviewing bids from writers, selecting a writer, and authorizing payment. Students can request revisions until satisfied. While the site promises original, high-quality content, there are concerns about plagiarism. The summary provides the key steps in the process for getting papers written by the site.
A For And Against Essay About The Internet LearnEAndrew Parish
The Czech Republic has a population of over 10 million people and its capital and largest city is Prague, known for its historic Old Town Square and Charles Bridge. The Czech economy relies heavily on exports of machinery and transport equipment and has a GDP per capita that is higher than the European Union average. While the Czech Republic has a developing market economy, it faces challenges from an aging population and lack of skilled labor.
How To Write A 300 Word Essay And How Long Is ItAndrew Parish
This document provides instructions for writing a 300-word essay and describes the 5 step process for getting writing help from HelpWriting.net. The steps include 1) creating an account, 2) completing an order form with instructions and deadline, 3) reviewing writer bids and choosing one, 4) reviewing the completed paper and authorizing payment, and 5) requesting revisions until satisfied. The document also provides a sample 300-word essay on the poem "When You Are Old" by William Butler Yeats as an example.
Writing Paper - Printable Handwriti. Online assignment writing service.Andrew Parish
Here is a draft mission statement for the First Christian Methodist Episcopal Church:
The mission of the First Christian Methodist Episcopal Church is to spread the love of God and teachings of Jesus Christ through worship, fellowship and service. We strive to:
- Provide a welcoming community where all people can experience the joy, hope and love found in a personal relationship with God.
- Lead worship services that are spiritually uplifting, encourage faith development and inspire members to live according to Christian principles.
- Offer educational and fellowship programs that nurture spiritual growth, build connections between members and integrate new visitors into our church family.
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How to Build a Module in Odoo 17 Using the Scaffold Method
AGROFORESTRY THEORY AND PRACTICES
1. AGROFORESTRY
THEORY AND PRACTICES
Editors & Authors
ANTONY JOSEPH RAJ Ph.D.
Associate Professor (Forestry)
Department of Land Resources Management and Environmental Protection
Mekelle University, Ethiopia
&
Associate Dean (On Leave)
College of Forestry and Environment
Sam Higginbottom Institute of Agriculture, Technology and Sciences
(Formerly Allahabad Agricultural Institute) Deemed University
Allahabad, Uttar Pradesh, India
S.B.LAL Ph.D.
Pro-Vice Chancellor and Dean
College of Forestry and Environment of SHIATS - Deemed University
(Formerly Allahabad Agricultural Institute)
Allahabad, Uttar Pradesh, India
3. FOREWORD
World’s total forest area is 4.03 billion hectares, corresponding to 31 per cent of the
total land area or an average of 0.6 ha of per capita, whereas India’s forest and tree cover
is 78.29 million hectares which is only 23.81 per cent of the geographical area. We are
continuously putting efforts to achieve the national goal of 33 per cent geographic area of
the country under the forest and tree cover as enshrined in the National Forest Policy,
1988. India has only 2.4 per cent of the world’s geographical area and 0.5 per cent of the
world’s grazing area but supports over 16 per cent of the world’s human population and
over 18 per cent of world’s cattle population. This ever increasing population places
enormous demands and pressures on the land resources and forest resources. Agro-
forestry is the potential option for increasing the tree cover outside the notified forest
areas.
India is endowed with a variety of soils, climate, biodiversity and ecological regions.
An area of 46.70 million ha has been estimated under wastelands which is 14.75 per cent
of the total geographical area of the country. The land degradation issue threatens
country’s food security and the quality of the environment which assumes a major
significance nowadays. Agroforestry practices are considered as most vital technology
and potential farming system for minimizing the land degradation. Agroforestry practices
increase farm productivity, diversify income sources for farmers and provide environ-
mental services. Agroforestry improves soil, water and air quality, and biodiversity while
supporting sustainable production of food, feed, fibre and energy. IPCC’s prediction of
temperature increase between 1.1ºC and 6.2ºC by the end of the century due to excessive
carbon dioxide emission will most likely create extreme changes in temperature and
precipitation. Agroforestry represents a significant opportunity for sequestering more
carbon per unit area on agricultural lands and it can be better climate change mitigation
option than ocean and other terrrestrial options because of vast production and protective
benefits.
The new comprehensive editorial textbook “Agroforestry: Theory and Practices” by
Dr.Antony Joseph Raj and Prof.S.B.Lal is a rich source of knowledge and practical
information on agroforestry drawn from the scientific literature, databases and field
experiences from all over world. This textbook provides thoroughly up-to-date principles
and methods on agroforestry and excellently covers the latest and modern technologies in
4. iv Agroforestry Theory and Practices
the agroforestry field. This book, with its high standards, will enormously benefit the
students for their preparation of competitive exams like UPSC-Civil Services, UPSC-
Indian Forest Service, ICAR-ARS Scientist Exam, ICFRE Forestry Scientist Exam, NET
Exam, State Public Service Commission Exams etc. I am confident that scientists,
University and college teachers, and foresters from all over world should find this
resource book useful in creating effective and innovative training programmes and
manpower in agroforestry.
I welcome this latest Agroforestry textbook which will be most valuable to the
students of agriculture, forestry, horticulture, soil science, water science, ecology,
environment science and other plant sciences.
I would like to congratulate the authors, Dr. Antony Joseph Raj and Prof.S.B.Lal, for
their tireless efforts in bringing this high quality textbook for the benefit of students,
teachers, scientists and agricultural community.
Vice-Chancellor
Sam Higginbottom Institute of Agriculture, Technology and Sciences
(Formerly Allahabad Agricultural Institute) Deemed University
Allahabad, Uttar Pradesh, India
July 2013
5. PREFACE
Agroforestry provides a different land use option, compared with traditional
agricultural and forestry systems. Agroforestry combines trees, shrubs, forages, grasses,
livestock, and crops in innovative, flexible combinations tailored to the needs of farmers
and landowners. This intensive integration in agroforestry ensures sustained availability
of multiple products as direct benefits such as food, vegetables, fruits, fodder, fuel,
manure, medicine, timber, etc. It makes use of the complementarity between trees and
crops, so that the available resources can be more effectively exploited. It is a practice
that respects the environment and has an obvious landscape benefit. The integration of
trees, agricultural crops, and/or animals into an agroforestry system has the potential to
enhance soil fertility, reduce erosion, improve water quality, enhance biodiversity,
increase aesthetics and sequester carbon. Efficient, modern versions of agroforestry have
been developed around the world which can be adapted to different agroclimatic
conditions.
The agroforestry always remains productive for the farmer and generates continuous
revenue. Agroforestry allows for the diversification of farm activity and makes better use
of environmental resources. The goal of agroforestry is to optimize productivity and
conservation benefits within a set of integrated land use practices. Agroforestry has
interesting advantages from three different perspectives viz. agriculture, forestry and
environment. The agroforestry practices enhance biodiversity, sequester more carbon
dioxide from atmosphere, diversify farmers’ income sources, generate greater profits than
annual crops, and create a more integrated, interesting, and visually appealing land use
system that may be more environmentally, economically, and socially sustainable than
the original farmland. With the shrinking per capita land availability, agroforestry system
with the integration of perennial woody trees with crops/pastures is most suitable
technology for increasing total productivity of food, feed and fuel and thereby reducing
the risk of farming.
This editorial textbook “Agroforestry: Theory and Practices” is one of the finest
books on agroforestry that offers a global review of the basic approaches, tools and
technologies, research innovations and real-world practices in agroforestry. The book
offers a comprehensive guide to basic principles, techniques and applications, integrative
strategies, economic and environmental concerns, and future trends in agroforestry in
6. vi Agroforestry Theory and Practices
different regions of the world. This textbook is an effort to create a coherent and wide-
ranging guide to the practice of agroforestry. This book covers key areas in agroforestry,
namely agroforestry practices and its distribution, agroforestry systems classification,
agroforestry trees, agroforestry management, technologies and modern concepts in
agroforestry, production benefits of agroforestry, environmental services of agroforestry,
agroforestry education, research & extension, etc.
In many aspects, the topics and structure of this textbook is highly meritorious and
unique than other agroforestry books. This textbook is intended for university & college
students, professors, scientists, researchers, foresters, farmers, policy makers and
professionals in the field of agriculture, forestry, horticulture, other agricultural sciences
and biological sciences. The main intention of this textbook is to provide a state-of-the-
art and up-to-date knowledge of recent developments in agroforestry as a potential future
land use system. This textbook on agroforestry will enormously benefit the students for
their preparation of competitive exams like UPSC-Civil Services, UPSC-Indian Forest
Service, ICAR-ARS Scientist/NET Exam, ICFRE Forestry Scientist Exam, State Public
Service Commission Exams and University Entrance Exam for admission to M.Sc. and
Ph.D. programmes
This agroforestry textbook will contribute significantly to academic teaching and
scientific research. Additional information or suggestions are invited from experienced
researchers and experts for improving the quality of the book in future editions. We thank
Dr.(Mrs.) Roselin Antony, Assistant Professor of Mekelle University (Ethiopia) for her
editorial help and for enhancing the English language & technical writing of manuscript.
We are confident that this agroforestry textbook will become a huge success just like our
earlier book “Forestry: Principles and Applications”.
ANTONY JOSEPH RAJ
S.B. LAL
July 2013
7. LIST OF CONTRIBUTORS
Dr. Antony Joseph Raj
Associate Professor (Forestry), LaRMEP,
Mekelle University, Mekelle, Ethiopia &
Associate Dean (On Leave), College of
Forestry and Environment, SHIATS Deemed
University, Allahabad
Prof. S.B. Lal
Pro-Vice Chancellor and Dean, College of
Forestry and Environment,
SHIATS Deemed University,
(Formerly Allahabad Agricultural Institute),
Allahabad, Uttar Pradesh
Dr. M.M. Roy
Director,
Central Arid Zone Research Institute
(CAZRI), Jodhpur, Rajasthan
Shri. P. Durairasu, IFS
Dean (Forestry), Forest College and
Research Institute (FC&RI),
Mettupalayam, Tamil Nadu
Shri. N. Satheesh, IFS
District Forest Officer, Tiruchirappalli,
Tamil Nadu
Prof. S.L. Madiwalar
Dean (Forestry) & Professor (Agroforestry),
College of Forestry, Sirsi,
(UAS-Dharwad), Karnataka
Dr. K. Sasikumar, IFS
District Forest Officer,
North Tripura District,
Kumarghat, Tripura
Prof. S.J. Patil
Professor and Head, Dept. of Silviculture
and Agroforestry & Officer In-charge for
AICRP Agroforestry, University of
Agricultural Sciences,
(UAS-Dharwad), Karnataka
Dr. T. Mohan Raj, IFS
Divisional Forest Officer,
Tonk Forest Division, Tonk, Rajasthan
Prof. K.T. Parthiban
Professor and Head, Dept. of Tree Breeding,
Forest College and Research Institute
(FC&RI), Mettupalayam, Tamil Nadu
Shri. N. Gurunathan, IFS
Scientist in National Research Center for
Agroforestry, Jhansi (Earlier) and Presently
Probationary Officer, Indira Gandhi National
Forest Academy, Dehradun, Uttarakhand
Prof. M.P. Divya
Professor (Agroforestry), Officer In-charge
for AICRP Agroforestry, Forest College and
Research Institute (FC&RI),
Mettupalayam, Tamil Nadu
8. viii Agroforestry Theory and Practices
Dr. Suresh Kumar
Head & Principal Scientist, Department of
Integrated Land Use Management,
Central Arid Zone Research Institute
(CAZRI), Jodhpur, Rajasthan
Prof. C.T. Ashok Kumar
Professor (Entomology), Department of
Entomology, College of Agriculture, U.A.S.,
G.K.V.K., Bangalore, Karnataka
Dr. Ramakrishna Hegde
Associate Professor & Head,
Department of Silviculture and Agroforestry,
College of Forestry, Ponnampet
(UAS, Bangalore), Karnataka
Prof. M.S. Malik
Professor and Head, Dept. of Silviculture
and Agroforestry and Officer In-charge for
AICRP Agroforestry, Faculty of Forestry,
Birsa Agriculture University, Kanke,
Ranchi, Jharkhand
Dr. T.K. Kunhamu
Associate Professor (Agroforestry),
Dept. of Silviculture and Agroforestry and
Officer In-charge for AICRP Agroforestry,
College of Forestry, Kerala Agricultural
University, Thrissur, Kerala
Dr. O.P. Chaturvedi
Head, Department of Plant Science &
Principal Scientist, Central Soil and Water
Conservation Research and Training
Institute (ICAR), Dehradun
Dr. K.S. Pant
Senior Scientist (Agroforestry),
Department of Silviculture and Agroforestry,
College of Forestry, Dr.Y.S.Parmar
University of Horticulture and Forestry,
Nauni, Solan, Himachal Pradesh
Dr. A. Venkatesh
Principal Scientist (Forestry),
ICAR Research Complex for NEH Region,
Umiam (Barapani), Meghalaya
Dr. C. Buvaneswaran
Scientist E, Division of Forestry, Land Use
and Climate Change, Institute of Forest
Genetics and Tree Breeding, Coimbatore,
Tamil Nadu
Dr. J.C. Tewari
Principal Scientist (Forestry),
Central Arid Zone Research Institute
(CAZRI), Jodhpur, Rajasthan
Dr. Sanjeev K. Chauhan
Associate Professor (Forestry),
Dept. of Forestry & Natural Resources,
Punjab Agricultural University,
Ludhiana, Punjab
Dr. Harsh Mehta
Principal Scientist, Central Soil and Water
Conservation Research and Training
Institute (ICAR Institute),
Dehradun, Uttarakhand
Dr. Ajit
Senior Scientist, National Research Center
for Agroforestry (NRCAF),
Jhansi, Uttar Pradesh
Dr. J.M.S. Tomar
Senior Scientist, Central Soil and Water
Conservation Research and Training
Institute (ICAR), Dehradun, Uttarakhand
Dr. Munish Kumar
Associate Professor, Department of Soil
Conservation and Water
Management/Forestry, C.S. Azad University
of Agriculture and Technology,
Kanpur, Uttar Pradesh
Dr. P. Ratha Krishnan
Senior Scientist (Forestry),
Central Arid Zone Research Institute
(CAZRI), Jodhpur, Rajasthan
9. List of Contributors ix
Dr. Sharad Nema
Associate professor (Forestry) & Head,
School of Studies (Forestry & Wildlife),
Bastar University, Jagdalpur, Chhattisgarh
Dr. Rajesh Kaushal
Senior Scientist, Central Soil and Water
Conservation Research and Training
Institute (ICAR), Dehradun, Uttarakhand
Dr. Naresh Kaushik
Senior Scientist (Agroforestry),
CCS Haryana Agricultural University,
Hissar, Haryana
Dr. D.R. Palsaniya
Senior Scientist,
Indian Grassland and Fodder Research
Institute (ICAR), Jhansi, Uttar Pradesh
Dr. P.J. Mishra
Officer In-charge for AICRP Agroforestry,
College of Agriculture, Orissa University of
Agriculture and Technology,
Bhubaneswar, Odisha
Dr. J. Jayaprakash
Scientist,
Central Soil and Water Conservation
Research and Training Institute (ICAR),
Dehradun, Uttarakhand
Dr. Lalit M. Gupta
Associate Professor (Agroforestry),
Division of Agroforestry,
Sher-E-Kashmir University of Agriculture,
Science and Technology, Jammu, J&K
Dr. S. Varadha Raj
Assistant Professor,
Department of Agricultural Economics,
Tamil Nadu Agricultural University,
Coimbatore, Tamil Nadu
Dr. Manmohan J.R. Dobriyal
Associate Professor (Silviculture),
Department of Silviculture and Agroforestry,
Aspee College of Horticulture and Forestry/
College of Forestry, Navsari Agricultural
University, Navsari, Gujarat
Dr. S. Umesh Kanna
Assistant Professor (Forestry),
Forest College and Research Institute
(FC&RI), Mettupalayam, Tamil Nadu
Dr. Emiru Birhane
Assistant Professor, Department of Land
Resources Management and Environmental
Protection, Mekelle University,
Mekelle, Ethiopia
Mr. Mengisteab Hailu
Head, Department of Land Resources
Management and Environmental Protection,
Mekelle University,
Mekelle, Ethiopia
Mr. Etefa Guyassa
Department of Land Resources Management
and Environmental Protection, Mekelle
University, Mekelle, Ethiopia
Mr. Samuale Tesfaye
Department of Land Resources Management
and Environmental Protection, Mekelle
University, Mekelle, Ethiopia
Dr. Ajay Thakur
Scientist, Botany Division,
Forest Research Institute (ICFRE Institute),
Dehradun, Uttarakhand
Mr. Hailemariam Gebrewahid
Institute of Geo-Information and Earth
Observation Sciences (I-GEOS), Mekelle
University, Mekelle, Ethiopia
Mrs. Smitha G Nair
Jr. Scientist, AICRP on Agroforestry,
Orissa University of Agriculture and
Technology,
Bhubaneswar, Odisha
Dr. Afaq Majid Wani
Assistant Professor, College of Forestry and
Environment, SHIATS Deemed University,
(Formerly Allahabad Agricultural Institute),
Allahabad, Uttar Pradesh
10. x Agroforestry Theory and Practices
Dr. S. Kala
Scientist (Forestry), ICAR-CSWCRTI
Research Centre,
Agra, Uttar Pradesh
Dr. Munesh Kumar
Assistant Professor, Department of Forestry,
HNB Garhwal University, Srinagar
Garhwal, Uttarakhand
Dr. A. Sudha
Assistant professor (Forest Pathology)
Forest college and Research Institute
Mettupalayam, Tamil Nadu
Dr. Amol Vasishth
Assistant Professor (Forestry),
College of Horticulture and Forestry,
MPUAT, Jhalawar, Rajasthan
Shri. V. Mahewarappa
Asst Professor, Department of Silviculture
and Agroforestry, College of Forestry,
Ponnampet , University of Agricultural
Sciences (UAS-Bangalore), Karnataka
Dr. Raj Kumar
Scientist, Central Soil and Water
Conservation Research and Training
Institute (ICAR), Dehradun, Uttarakhand
Dr. Vipan Guleria
Dr.Y.S.Parmar University of Horticulture
and Forestry,
Nauni, Solan, Himachal Pradesh
Dr. S.K. Uttam
Assistant Professor, Department of Soil
Conservation and Water
Management/Forestry, C.S. Azad University
of Agricultural & Technology,
Kanpur, Uttar Pradesh
Ms. Meenakshi Gupta
Assistant Professor (Agroforestry), Division
of Agroforestry, Sher-E-Kashmir University
of Agriculture, Science and Technology,
Jammu, J&K
Shri. M.N. Ramesha
Scientist, ICAR-CSWCRTI Research
Centre,
Datia, Madhya Pradesh
Ms. S. Vennila
Forest college and Research Institute
Mettupalayam, Tamil Nadu
B.B. Behra
Jr. Scientist, AICRP on Agroforestry,
Orissa University of Agriculture and
Technology, Bhubaneswar, Odisha
Ms. V. Priyanka
Forest college and Research Institute,
Mettupalayam, Tamil Nadu
Ms. B. Vinothini
Forest college and Research Institute
Mettupalayam, Tamil Nadu
11. CONTENTS
PART 1: OVERVIEW OF AGROFORESTRY
Chapter 1 Introduction to Agroforestry – Antony Joseph Raj 1-33
Introduction - Paradigm Shifts in Agricultural Development - What is
Agroforestry? - Why Agroforestry? - History of Agroforestry -
Definitions of Agroforestry - Components of Agroforestry - Scope of
Agroforestry - Concepts of Agroforestry - Benefits of Agroforestry -
Limitations of Agroforestry - Agroforestry Terminologies
Chapter 2 Agroforestry and Food Security – A. Venkatesh, K.P. Mohapatra,
A. Arunachalam, D.J. Rajkhowa, S. Bharali & S.V. Ngachan
34-53
Introduction - Global Demography - Global Food Production - Asian
Agriculture - Indian Agricultural Scenario - Myriad of Agroforestry
System - Agroforestry in India - Potential of Agroforestry -
Agroforestry Vis-a-Vis Food Security - Productivity of Agroforestry
Systems - Breaking Poverty and Food Insecurity Cycle - Caveats and
Clarifications - Conclusion
Chapter 3 Agroforestry and Ecosystem Services – Ramakrishna Hegde 54-66
Introduction - Agroforestry for Microclimate Modification -
Agroforestry for Soil Enrichment - Agroforestry for Soil Stabilization
and Erosion Control - Agroforestry for Flood Mitigation - Agroforestry
for Water Yield and Quality - Agroforestry and Pest Control -
Agroforestry for Pollination Improvement - Agroforestry for Carbon
Sequestration and Air Quality - Agroforestry for Climate Change
Mitigation - Agroforestry for Biodiversity Conservation - Agroforestry
for Aesthetics and Cultural Services
Chapter 4 Agroforestry Systems Classification – S.J. Patil & Maheswarappa. V 67-90
Introduction - Classification of Agroforestry Systems - Structural
Classification of Agroforestry Systems - Classification based on Nature
of Components - Agrisilvicultural Systems - Silvopastoral Systems -
12. xii Agroforestry Theory and Practices
Agrosilvopastoral Systems - Other Systems - Classification based on
Arrangement of Components - Functional Classification of
Agroforestry Systems - Classification based on Ecological Grouping -
Classification based on Socio-Economic Conditions - Physiognomic
Classification of Agroforestry - Other Ways of Agroforestry Systems
Classification
PART 2: AGROFORESTRY TREES
Chapter 5 Multipurpose Trees in Agroforestry – Mengisteab Hailu &
Antony Joseph Raj
91-103
Introduction - What is a Multipurpose Tree? - Why Grow Multipurpose
Trees? - Objectives of Planting Multipurpose Trees - What are the Best
Multipurpose Trees for Agroforestry? - Selection Criteria for
Multipurpose Trees - Methods for Multipurpose Trees Screening and
Evaluation - Greater Role of Multipurpose Agroforestry Tree Species -
ICRAF’s Multipurpose Tree and Shrub (MPTS) Database - ICRAF’s
Agroforestree (AFT) Database - Important Multipurpose Trees for
Tropics
Chapter 6 Nitrogen Fixing Trees in Agroforestry – S.L. Madivalar &
Antony Joseph Raj
104-116
Introduction - Overview of Biological Nitrogen Fixation - Nitrogen
Fixing Trees - Fertilizer Trees - Selection of Nitrogen Fixing Trees for
Agroforestry - Uses and Planting of Nitrogen Fixing Trees in
Agroforestry - Nitrogen Inputs and Outputs in Agroforestry - Nitrogen
Fixing Trees for Agroforestry Practices
Chapter 7 Genetic Improvement of Industrial and Non-Industrial
Agroforestry Trees – S. Umesh Kanna, K.T. Parthiban, S. Vennila &
P. Durairasu
117-149
Introduction - Status of Tree Improvement: A Global Perspective -
Genetic Improvement of Industrial Species - Genetic Improvement of
Non-Industrial Species - Biotechnology and Its Applications in Tree
Improvement - Micropropagation - Somaclonal Variation - Somatic
Embryogenesis/Synthetic Seeds - In Vitro Selection - Protoplast Fusion
- Haploid Cultures - Shoot-Tip/ Meristem Culture - Gametophyte
Cultures - In Vitro Embryo Rescue - In Vitro Control of Maturation
State - Cryopreservation and In Vitro Storage - Molecular Markers -
Quantitative Trait Loci - Genetic Engineering - Conclusion
Chapter 8 Domestication and Commercialization of Indigenous Trees in
Agroforestry – Antony Joseph Raj
150-175
Introduction - What is Domestication? - Plant Species Domestication -
History of Tree Domestication - Global Initiatives for Agroforestry
Tree Domestication - Tree Domestication in Agroforestry - Stages of
13. Contents xiii
Agroforestry Tree Domestication - Principles of Agroforestry Tree
Domestication - Tree Domestication and Vegetative Propagation -
Domestication of Trees for Wood and Non Wood Forest Products -
Participatory Approach in Agroforestry Tree Domestication - ICRAF’s
Global Research Project-1 (GRP 1): Domestication, Utilization and
Conservation of Superior Agroforestry Germplasm
Chapter 9 Traditionally Important Trees in Indigenous Agroforestry Systems
– Harsh Mehta, Sanjeev Chauhan, Pankaj Panwar & O.P. Chaturvedi
176-191
Introduction - Role of Agroforestry Trees in Rural Livelihood - Trees
in Agroecosystems - Important Trees of Indigenous Agroforestry
Systems/Practices in India - Himalayan Region - Indo-Gangetic Plains
- Arid and Semi-Arid Region - Humid and Sub-Humid Region -
Coastal and Island Region - Description of Important Traditional Tree
Species of Indigenous Agroforestry
PART 3: AGROFORESTRY MANAGEMENT
Chapter 10 Tree Architecture and Tree Management in Agroforestry –
Maheswarappa. V, Ramakrishna Hegde, Ashok B Divatar &
B.G. Nayak
192-205
Introduction - Tree Structure and Growth - Tree Crown Architecture -
Tree Root Architecture - Above and Below Ground Competition in
Agroforestry - Silvicultural Options for Minimizing the Negative
Interactions - Pruning - Pollarding - Thinning - Coppicing
Chapter 11 Crop Planning and Management in Agroforestry – D.R. Palsaniya,
Sunil Tiwari & Mukesh Chaudhary
206-220
Crop Cultivation in Agroforestry - Crop Planning and Management in
Agroforestry - Selection of Suitable Crops for Agroforestry -
Introduction of Leguminous Intercrops in Agroforestry - Nutrient
Management - Water Management - Shade Management - Weed
Management - Disease Management - Insect-Pest Management
Chapter 12 Disease Management in Tropical Agroforestry Landscapes –
A. Sudha
221-247
Plant and Tree Diseases - Scope and Scale of Pathogens and their
Impacts - Symptoms of Plant/Tree Diseases - General Methods for
Plant Disease Control - Seed Diseases - Nursery Diseases - Foliar
Diseases - Root Diseases - Heart Rots - Disease Management in
Agroforestry Trees (Neem, Albizia, Gmelina, Pongamia, Teak,
Shisham, Casuarina, Ailanthus, Jackfruit, Eucalyptus) - Disease
Management of Crops under Agroforestry (Rice, Sorghum, Maize,
Wheat, Pearl Millet, Red Gram, Green Gram)
14. xiv Agroforestry Theory and Practices
Chapter 13 Insect Pest Management in Tropical Agroforestry Systems –
C.T. Ashok Kumar, S.C. Topagi & Veereshkumar
248-271
Introduction - Factors Contributing to Insect Pest Problems in
Agroforestry - Pest Control, Pest Management and Integrated Pest
Management - Overview of Pest Management Options - Natural Forest
Pest Control - Artificial or Applied Control of Tree Pests - Silvicultural
Control - Mechanical and Physical Control - Semiochemicals
(Behaviour Inducing Chemicals) - Biological Control - Microbial
Control - Chemical Control - Constraints to Forest Pest Management in
the Tropics - Need for Further Research
PART 4: AGROFORESTRY CONCEPTS
Chapter 14 Tree Crop Interactions in Agroforestry –
M.P. Divya, V. Priyanka & B. Vinothini
272-289
Introduction - Kinds of Tree-Crop Interactions - Positive Interactions -
Increased Production and Productivity - Soil Improvement - Nutrient
Cycling - Microclimate Amelioration - Negative Interactions -
Competition - Allelopathy - Microclimatic Modifications for Pest
and Diseases - Interaction Management - Manipulation of Densities
and Arrangement of Trees - Manipulation of Tree Crowns and Roots -
Choice of Agricultural Crops
Chapter 15 Diagnosis and Design in Agroforestry –
M.N. Ramesha & N. Gurunathan
290-298
Introduction - Diagnosis and Design (D&D) - Agroforestry Systems
Research Process - Basic Procedure of D&D - Key Features of D&D -
Variable Scale D&D Procedures - New Farming Concepts and
Application of D&D Tool - Conclusion
Chapter 16 Economic Analysis of Agroforestry Systems –
Amol Vasishth & Vipan Guleria
299-312
Introduction - Agroforestry Investment Valuation - Key Factors in
Economic Analysis of Agroforestry - Economics of Agrisilviculture
Systems - Economics of Silvipasture Systems - Economics of
Agrihorticulture Systems - Two Tier Cropping Systems based on
Poplar Plantation - Conclusion
Chapter 17 Markets and Marketing of Agroforestry Products – S. Varadha Raj,
M. Chinnadurai, M.P. Divya & N. Narmadha
313-329
Introduction - Timber Markets - Major Markets for Forest, Farm and
Agroforestry Products - Wood based Products Trade in India - Wood
Production in Agroforestry and Its Sale and Marketing - Industrial Raw
Material Based Agroforestry Products Markets and Marketing -
Conclusion
15. Contents xv
PART 5: IMPORTANT AGROFORESTRY SYSTEMS
Chapter 18 Alternatives to Shifting Cultivation – K. Sasikumar 330-341
What is Shifting Cultivation? - Overview of Shifting Cultivation - Soil
Dynamics in Shifting Cultivation - Positive and Negative Aspects of
Shifting Cultivation - Controlling Shifting Cultivation: Strategies and
Initiatives - Improvements and/or Alternatives to Shifting Cultivation -
Successful Experiments for Potential Management of Shifting
Cultivation - Technological Guidelines for Improvement of Shifting
Cultivation
Chapter 19 Taungya Systems – N. Satheesh, T. Mohan Raj & S. Kala 342-353
What is Taungya System? - Types of Taungya Systems - Taungya
System in some Tropical Countries - Taungya System in India -
Management of Taungya System - Taungya Plantations Establishment
and Biodiversity Conservation - Advantages and Disadvantages of
Taungya System - Improvements to Taungya System
Chapter 20 Alley Cropping System – R. Kaushal, Raj Kumar, J.M.S. Tomar &
O.P. Chaturvedi
354-364
Introduction - What is Alley Cropping? - Alley Cropping: History and
Mixed Response - Establishment of Alley Cropping System -
Management of Alley Cropping System - Benefits of Alley Cropping -
Drawbacks of Alley Cropping
Chapter 21 Tropical Homegardens – T.K. Kunhamu 365-375
What is Homegarden? - Distribution of Homegardens - Tree-Crop
Diversity in Homegardens - Structural Attributes of Homegarden -
Functional Attributes of Homegarden - Ecosystem Services of
Homegarden - Management Characteristics of Homegarden - Shifting
Trends in Homegardening - Conclusion
PART 6: DISTRIBUTION OF AGROFORESTRY SYSTEMS
Chapter 22 Agroforestry Systems of World – Etefa Guyassa, Samuale Tesfaye &
Antony Joseph Raj
376-419
Overview of Global Agroforestry - Agroforestry Systems in Africa -
Agroforestry Systems in Asia - Agroforestry Systems in Pacific Islands
- Agroforestry Systems in Latin American Tropics - Temperate
Agroforestry Systems in North America - Temperate Agroforestry
Systems in Europe - Agroforestry Systems in Australia and New
Zealand
16. xvi Agroforestry Theory and Practices
Chapter 23 Agroforestry Systems of India – S. Kala, T. Mohan Raj, K.R. Dhixya
Deve & S. Reeja
420-444
Introduction - History of Agroforestry Practices in India - Traditional
Agroforestry Systems in India - Agroforestry Systems in different
Agro-Ecological Zones of India - Agro-Climatic Zones of India -
Improved Agroforestry Systems in Agro-Climatic Zones of India -
Recent Scenario of Agroforestry Development in India
Chapter 24 Agroforestry Systems of Himalayan Region – Meenakshi Gupta,
L.M. Gupta, Punit Choudhary, K.K. Sood & Amol Vasishth
445-453
Introduction - Agroforestry: A Sustainable Land Use in Himalayan
Region - Composition of Traditional Agroforestry Crops and Trees in
Himalayan Region - Traditional Agroforestry Combinations in
Himalayan Region - Agroforestry for Livelihood Security and
Sustainable Development in Himalayan Region - Important
Agroforestry Practices of Himalayan Region - Medicinal and Aromatic
Plants in Himalayan Agroforestry Systems - Conclusion
Chapter 25 Urban Agroforestry Systems –
P.J. Mishra, Smitha G Nair & B.B. Behra
454-464
Introduction - Urbanization - Urban Green Development and Urban
Forestry - Urban Agriculture - Urban Agroforestry - Benefits of Urban
Agroforestry - Urban Homegardens/ Dooryard Urban Agroforestry -
Urban Agroforestry Systems on Undeveloped and Underutilized Lands
- Problems of Practicing Urban Agroforestry Systems
PART 7: AGROFORESTRY PRACTICES FOR EXTREME SITE CONDITIONS
Chapter 26 Agroforestry Practices for Arid and Semi-Arid Regions –
P. Ratha Krishnan, J.C. Tewari, Suresh Kumar & M.M. Roy
465-484
Introduction - Major Cropping System and Tree Choice for Arid and
Semi-Arid Zone Farmers - Importance of Major Agroforestry Practices
in Arid and Semi-Arid Regions - Agroforestry Practices in Hot Arid
Regions - Agroforestry Practices in Cold Arid Regions - Agroforestry
Practices in Semi-Arid Regions - Agroforestry Policy Research
Priorities for Arid and Semi-Arid Regions
Chapter 27 Agroforestry Practices for Salt Affected Lands (Biosaline
Agroforestry) – Munish Kumar, S.K. Uttam & Antony Joseph Raj
485-500
Introduction - Distribution of Salt Affected Lands - Classification of
Salt Affected Soils - Reclamation of Salt Affected Lands - Biosaline
Agroforestry - Salt Tolerant Crops, Trees and Grasses for Biosaline
Agroforestry - Agroforestry Practices in Salt Affected Lands
17. Contents xvii
Chapter 28 Agroforestry Practices for Wetlands and Waterlogged Areas –
S. Kala & T. Mohan Raj
501-527
What are Wetlands? - Classification of Wetlands - Distribution of
Wetlands in India - Wetland Rehabilitation Measures - Selection of
Suitable Trees and Crops for Wetland Agroforestry - Major
Agroforestry Practices for Wetlands - Other Agroforestry Options for
Wetlands - Benefits of Wetland Agroforestry Practices - Waterlogged
Lands - Adverse Effects of Waterlogging - Causes of Waterlogging -
Anti-Waterlogging Measures - Afforestation Techniques and
Agroforestry Practices for Waterlogged Areas - Development of Bio-
Drainage System through Agroforestry - Sustainable Integrated
Farming System for Waterlogged Areas - Other Biomass Production
Technology for Seasonal Deep Waterlogged Areas
PART 8: AGROFORESTRY PRACTICES FOR SOCIO-ECONOMIC DEVELOPMENT
Chapter 29 Agroforestry Practices for Non-Wood Forest Products and Rural
Development – Manmohan J.R. Dobriyal
528-550
Introduction - Greater Role of Agroforestry - Non-Wood Forest
Products from Agroforestry - Domestication of Non-Wood Forest
Products in Agroforestry - NWFPs Yielding Plants for Potential
Agroforestry Use - Flavours and Fragrances (Essential Oils) - Gums,
Resins and Latex - Tree Borne Oil Seeds (TBOs) - Fibres and Flosses -
Dyes/Colourants - Tannins - Medicinal Plants - Edible Plant Products -
Canes/Rattan - Palms - NWFPs based Agroforestry - Constraints for
Development of NWFPs - Development of NWFPs through
Agroforestry - Conclusion
Chapter 30 Bamboo based Agroforestry Systems – M.S. Malik &
Antony Joseph Raj
551-563
Introduction - Bamboo Morphology and Growth - Bamboo Occurrence
and Flowering - Bamboo Resources of India - Bamboo Propagation -
Development of Bamboo based Agroforestry Systems - Utility of
Bamboo Plantation - International Network for Bamboo and Rattan -
National Bamboo Mission
Chapter 31 Fruit Trees based Agroforestry Systems – K.S. Pant, A.G. Yewale &
Prem Prakash
564-588
Introduction - Fruit Tree based Agroforestry - Concept of Fruit based
Agroforestry System - Advantages of Fruit based Agroforestry Systems
- Fruit based Agroforestry Systems: Indian Scenario - Mango based
Agroforestry System - Guava based Agroforestry System - Citrus based
Agroforestry System - Aonla based Agroforestry System - Apple based
Agroforestry System - Peach based Agroforestry System - Litchi based
Agroforestry System - Sapota based Agroforestry System - Multitier
Systems Consisting of Two or More Fruit Crops - Flower Crops as
Intercrops in Orchards - Agrihortisilviculture - Agrihorticulture - Fruit
18. xviii Agroforestry Theory and Practices
Trees based Agroforestry Research in Dr.YSPUHF, HP - Horti-
Medicinal Agroforestry System
Chapter 32 Medicinal and Aromatic Plants based Agroforestry Systems –
Ajay Thakur & Puran Chandra
589-601
Medicinal and Aromatic Plants: A Valuable Resource - Significance
and Utilization of Medicinal and Aromatic Plants from Forest -
Conservation of MAPs in Farm Cultivation - Medicinal and Aromatic
Plants based Agroforestry Systems - Medicinal and Aromatic Plants in
Pure Stands/Orchards - Medicinal and Aromatic Plants as Overstorey
Trees - Medicinal and Aromatic Plants as Intercrops - MAPs in
Homestead Gardens - MAPs in Traditional Agroforestry Practices -
Conclusion
Chapter 33 Fodder Production from Agroforestry Trees – Raj Kumar,
J.Jayaprakash, J.M.S. Tomar, O.P. Charurvedi, Charan Singh &
A.C. Rathore
602-612
Introduction - Significance of Tree Fodder - Selection of Trees for
Fodder Purpose - Fodder Trees Planting - Tree based Agroforestry
Systems for Fodder Production - Harvesting of Tree Fodder in
Agroforestry Systems - Feeding Tree Fodder to Farm Animals -
Harmful Side-Effects of Tree Fodder
Chapter 34 Agroforestry Practices for Fuelwood Production – Sharad Nema 613-622
Introduction - Overview of Forest and Fuelwood Status - Agroforestry
for Meeting Fuelwood Demand - Scope and Approaches for Fuelwood
Production in Land Use Systems - Choice of Fuelwood Species in
Agroforestry - Management of Fuelwood Trees - Conclusion
PART 9: ENVIRONMENTAL SERVICES OF AGROFORESTRY
Chapter 35 Agroforestry and Biodiversity Conservation – Munesh Kumar 623-636
Introduction - Agrobiodiversity - Significance of Agrobiodiversity -
Changes in Agrobiodiversity - Threats to Agrobiodiversity - Conse-
rvation Strategies of Agrobiodiversity - Agroforestry and Biodiversity
Conservation - Conservation of Tree Diversity in Agroforestry
Chapter 36 Soil Fertility Improvement and Nutrient Cycling in Agroforestry –
S.K.Uttam, Munish Kumar & Antony Joseph Raj
637-651
Introduction - Soil Fertility and Productivity - Effects of Agroforestry
Trees on Soil Quality Improvement - Concept of Nutrient Cycling -
Nutrient Cycling in Agroforestry Systems
Chapter 37 Agroforestry Practices for Soil and Water Conservation –
J.M.S. Tomar, R. Kaushal, A.C. Rathore, H. Mehta & O.P. Chaturvedi
652-670
Introduction - Soil Erosion - What is Soil Conservation? - Role of
Agroforestry in Soil and Water Conservation - Agroforestry Practices
for Soil and Water Conservation
19. Contents xix
Chapter 38 Agroforestry Practices for Wasteland Development –
S.B.Lal & Antony Joseph Raj
671-688
Introduction - Land Degradation - What is Wasteland? - Wastelands in
India - National Action Programme to Combat Desertification -
Wasteland Development - Wasteland Development through
Agroforestry - Trees, Crops and Grasses suitable for Agroforestry
Practices in Degraded Lands
Chapter 39 Windbreak and Shelterbelt Agroforestry Systems –
C. Buvaneswaran
689-701
Windbreak Agroforestry System - Common Benefits of Windbreak -
Benefits of Windbreak reported in Research Studies - Planning and
Designing of Windbreaks - Optimum Number of Rows and Spacing for
Windbreaks - Selection of Species for Windbreaks - Ideotype Breeding
for Windbreaks - Shelterbelt Agroforestry System - Conclusion
Chapter 40 Agroforestry for Carbon Sequestration, Climate Change
Mitigation and Adaptation – Antony Joseph Raj
702-736
Global Carbon Cycle - Global CO2 Emissions - Greenhouse Effect and
Global Warming - Climate Change - Forest Carbon Cycle - Carbon
Sequestration - Agroforestry and Carbon Sequestration - Assessment of
Carbon Sequestration in Agroforestry - Agroforestry and Climate
Change Mitigation - Agroforestry and Climate Change Adaptation -
Challenges and Main Thrust Areas in Carbon Agroforestry
PART 10: MODERN APPROACHES IN AGROFORESTRY
Chapter 41 Tree Borne Oilseeds (TBOs) based Agroforestry Systems –
C. Buvaneswaran & Afaq Majid Wani
737-754
Introduction - Tree Borne Oilseeds (TBOs) - TBOs based Agroforestry
Systems - Neem (Azadirachta indica) - Pungam (Pongamia pinnata) -
Jatropha (Jatropha curcas) - Paradise Tree (Simarouba glauca) -
Alexandrian Laurel (Calophyllum inophyllum) - Kusum (Schleichera
oleosa) - Mahua (Madhuca longifolia) - Jojoba (Simmondsia chinensis)
- Wild Apricot (Prunus armeniaca) - Tung (Aleurites species) - Indian
Jujube or Ber (Ziziphus mauritiana) - Wild Plum (Ximenia
americana)
Chapter 42 Tree Growth and Yield Modelling in Agroforestry – Ajit 755-772
Introduction - Artistry of Modelling - Model Estimation - Model
Validation - Tree Modelling Techniques - Tree Growth and Yield
Modelling Strategies - Linear Functions - Non Linear Functions -
Allometric/Power Functions - Sigmoid Functions - Parabolic Functions
- Tree Height and Volume Equations - Tree Growth Modelling Website
in Indian Perspective - Conclusion
20. xx Agroforestry Theory and Practices
Chapter 43 Remote Sensing and GIS Application in Agroforestry –
Hailemariam Gebrewahid & Emiru Birhane
773-790
Introduction - Remote Sensing Techniques and Components - Types of
Remote Sensing - Photogrammetry and Aerial Photograph - Air Photo
Interpretation - Satellite Remote Sensing - What is Geographic
Information System (GIS)? - Components of GIS - Capabilities of GIS
- GIS Data Types and Models - Role of Remote Sensing and GIS in
Agroforestry
PART 11: AGROFORESTRY EDUCATION, RESEARCH AND EXTENSION
Chapter 44 Agroforestry Education, Research and Extension – N. Kaushik 791-806
Introduction - Agroforestry Education in India - Global Experiences in
Agroforestry Education - Agroforestry Research in India - Agroforestry
Research in World - Agroforestry Extension
Chapter 45 On-Farm Research in Agroforestry – M.P. Divya, V. Priyanka &
B. Vinothini
807-817
Introduction - What is On-farm Research? - Why On-farm Research? -
Types of On-farm Research - Experimental On-farm Research -
Developmental On-farm Research - Phases in Developmental On-farm
Research - Experimental Designs in On-farm Research - On-farm
Adaptations
Chapter 46 Experimental Designs in Agroforestry Research –
Emiru Birhane, Hailemariam Gebrewahid & Antony Joseph Raj
818-831
Introduction - What is Experimental Design? - Agroforestry
Experiment Design Requirements - Types of Agroforestry Experiments
- Agroforestry Experimental Designs (Completely Randomized Design
(CRD), Randomized Complete Block Design (RCBD), Latin Square
Design (LSD), Incomplete Block Designs, Factorial Design, Split-Plot
Design, Systematic Designs, Y-Design, Star Design, Two-Way
Systematic Design, Augmented Design, Design to Study MPT Effect)
Chapter 47 International and National Organizations of Agroforestry –
Antony Joseph Raj & Afaq Majid Wani
832-857
International Organizations - Regional Organizations - National
Organizations - Agroforestry/Forestry Journals
Bibliography 858-926
21. LIST OF TABLES
Table 2.1 Contributions of Agroforestry Produce to National Demand by 2025 42
Table 2.2 Employment Generation Potential through Agroforestry 42
Table 2.3 Agroforestry Systems and Productivity in South and Southeast Asia 47
Table 2.4 IIFS Models and Productivity in Meghalaya, India 50
Table 4.1 Common Agroforestry Systems in the Tropics 85
Table 4.2 Classification of Agroforestry Systems and Practices 87
Table 4.3 Types of Landuse Systems 88
Table 5.1 Multipurpose Tree Species suitable for Agroforestry 100
Table 6.1 Nitrogen Fixing Woody Actinorhizal Plants 108
Table 6.2 Nitrogen Fixing Woody Leguminous Plants 108
Table 8.1 Domestication Syndrome Traits 154
Table 8.2 Impact Pathways of ICRAF’s GRP-1 by Output 173
Table 9.1 Description of Important Traditional Tree Species of Indigenous
Agroforestry
186
Table 11.1 Suitable Crops and MPTs for Different Regions of India 209
Table 11.2 Summary of Sharing of Diseases among Crops 216
Table 11.3 Summary of Secondary Interactions recorded at NRCAF, Jhansi 216
Table 12.1 Diseases and Causal Pathogens of Agroforestry Tree Species 233
Table 13.1 Management Variables and their Possible Range of Effects on Pest
Infestations in Agroforestry Systems
251
Table 14.1 Characteristics of Individual Tree and Agricultural Crop in Agroforestry 288
Table 15.1 Basic Procedure of D&D 292
Table 15.2 Interface between emerging Farming Concepts and D&D Concepts 297
Table 16.1 Comparative Land/Man Ratio in India 301
Table 16.2 Cost-Benefits Analysis of Agroforestry System in Saharanpur 305
Table 16.3 Input Output Analysis of Agrisilviculture System in Lower Gangetic Plain 305
22. xxii Agroforestry Theory and Practices
Region
Table 16.4 Economic Analysis of Alley Cropping 307
Table 16.5 Economics of Silvipasture System in One ha on Degraded Lands 308
Table 16.6 Cost of Cultivation for an Average Production of 30,000 Aonla Seedlings
per Year
309
Table 16.7 Input Output Analysis of Agrihorticulture System in Central Plateau and
Hill Region
310
Table 16.8 Economics of Two Tier Cropping Systems based on Poplar Plantation 311
Table 17.1 Major Markets for Forest/Farm/Agroforestry Products in India 317
Table 17.2 Changes of Wood and Wood Products in India during 1996-2008 319
Table 18.1 Local Terms for Shifting Cultivation in Different Parts of the Tropics 332
Table 18.2 Shifting Cultivation in North-Eastern India as reported by the Task Force
on Shifting Cultivation
333
Table 19.1 Trees and Crops of Taungya Systems in India 346
Table 20.1 Differences in Management between Traditional Bush Fallow and the Alley
Cropping System
356
Table 20.2 Determination of Alley Spacing based on Slope Percentage 362
Table 22.1 Extent of Land Areas under Agroforestry 377
Table 22.2 Common Agroforestry Systems in the Tropics 378
Table 22.3 Important Agroforestry Systems of Africa 378
Table 22.4 Parkland Species in Africa 380
Table 22.5 Dominant Species in West African Parklands 381
Table 22.6 Understorey Cropping System in Pacific Islands 400
Table 22.7 Agroforestry Systems in Latin American Tropics 402
Table 23.1 Main Characteristics and Agroforestry Emphasis in Five Agro-Ecological
Zones of India
422
Table 23.2 Major Types of Agroforestry Systems and Benefits in different Agro-
Ecological Zones of India
424
Table 23.3 Main Agroforestry Systems practised in different AEZs with Examples 431
Table 23.4 A list of Trees, Crops and Grasses in various Agroforestry Systems of
different AEZs of India
434
Table 23.5 Fifteen Agro-Climatic Regions/ Zones in India 437
Table 23.6 Improved Agroforestry Systems for various Agro-Climatic Zones of India 439
Table 23.7 Area under various types of Tree Plantations in India 443
Table 26.1 Major Characteristics of Dry Regions (Arid and Semi-Arid) 466
Table 26.2 Major Cropping System and Tree Choice of Varying Economic Strata
Farmers
466
Table 26.3 Traditional Agroforestry Practices in Arid Region of Western Rajasthan 471
23. List of Tables xxiii
Table 26.4 Yield (t/ha) of Major Crops under Traditional Agroforestry Practice in
Western Rajasthan
471
Table 26.5 Fuelwood and Tree Fodder Production of Traditional AF Practices in
Western Rajasthan
472
Table 26.6 Productivity of Agrihorticulture System 473
Table 26.7 Economics of Traditional Agroforestry Practices of Arid Western Rajasthan 474
Table 26.8 Common Tree Species in Agroforestry Practices of Western Himalayas 478
Table 27.1 Characteristics of Salt Affected Soils 488
Table 27.2 Properties of Saline and Sodic Soils 491
Table 27.3 Organizations Performing Research on Biosaline Agroforestry/Forestry
/Agriculture
494
Table 28.1 Wetland Classification System 502
Table 28.2 Category-Wise Wetland Distribution in the Country 503
Table 28.3 Type-Wise Wetland Areas of India 503
Table 28.4 Suitable Trees/Shrubs and Grass/ Legume Species for Waterlogged Areas 521
Table 29.1 Constraints and Areas of Action for the Development of NWFPs 543
Table 29.2 A Tentative basis for preparing Guidelines for Development of NWFPs
through Agroforestry
546
Table 31.1 Crop used as Intercrop in Fruit based Agroforestry System 567
Table 31.2 Area and Production Estimates of Fruits in India (2010-11) 569
Table 31.3 Fruit Trees in Different Agroclimatic Regions/ Zones in India 569
Table 31.4 Profitability of Intercropping under adult bearing Mango Trees 571
Table 31.5 Average Grain Yield and Straw Yield (q ha-1
) of Wheat under different
rows from the interspaces of Mango Varieties
572
Table 31.6 Fresh Yield of Forage and Fruit in Guava based Horti-pasture system at
CRIDA, Hyderabad
574
Table 31.7 Seed Yield of Soybean and Total Net Monetary Returns from Guava and
Curry Leaf based Agrihorticulture System
574
Table 31.8 Crop Yield and Net Return of Guava based Agroforestry System 574
Table 31.9 Mean Growth and Yield of Aonla under different Treatments 576
Table 31.10 N, P and K Content in the Leaf Litter of Aonla 577
Table 31.11 Yield of Aonla and Intercrops under Agrihorticultural Systems 578
Table 31.12 Net Returns from various Cropping Patterns in Intercropping with Orchard 581
Table 31.13 Fruit, Fodder, Fuelwood and Grain Yield under Agri-horti-silviculture
System
585
Table 31.14 Apple Fruit Yield, Expenses and Return over two years under
Agrihorticulture System
587
Table 31.15 Crop Average Yield, Expenses and Return from Annual crops in Apple 587
24. xxiv Agroforestry Theory and Practices
based Agri-Horticulture System
Table 31.16 Peach Yield, Biomass Production, Removal and Retention levels of
different Agroforestry Systems
588
Table 32.1 World’s Top Ten Leading Countries of Import and Export of
Pharmaceutical Plants
591
Table 32.2 Improved Varieties of MAPs for Cultivation in India 592
Table 32.3 Cultivation Practices of some Medicinal Plants 593
Table 32.4 Cultivation Practices of some Medicinal Trees 593
Table 32.5 Medicinal Trees in Agroforestry Systems of the Tropics 594
Table 32.6 Medicinal Plants suitable for Agroforestry Systems in Northern India 596
Table 32.7 Commercially Valuable Medicinal Plants as Understorey Component in
Forest and Tree Plantations
597
Table 32.8 Intercropping of Aromatic Plants with Trees 599
Table 33.1 Chemical Composition of Important Fodder Tree Species 603
Table 33.2 Fodder Tree Species, Region, Fodder Availability Period and Preference to
Livestock
609
Table 34.1 Demand and Supply of Forest Produce in India 614
Table 34.2 Promising Trees/Shrubs for Fuelwood Production 619
Table 37.1 Classification based on Fournier Index 655
Table 37.2 Classification of Gullies based on the Size 656
Table 37.3 Classification of Gullies based on the Shape 656
Table 38.1 Wasteland Category/ Classes in India 2008-2009 677
Table 38.2 Wasteland Assessment by Different Organizations 679
Table 38.3 Types of Land Degradation and Improvement 683
Table 39.1 Evaluation of Different Phenotypes of Casuarina equisetifolia selected for
Windbreak Agroforestry Systems
699
Table 40.1 Global Carbon Emissions Statistics 708
Table 40.2 Impacts of Climate Change on Vegetation (Trees and Crops) 712
Table 40.3 Carbon Storage Potential of Different Biomes 722
Table 40.4 Carbon Sequestration Potential of Agroforestry Systems in Different
Ecoregions of the World
723
Table 40.5 Carbon Storage Potential of different Agroforestry Trees 724
Table 40.6 Biomass Carbon Stock (t ha-1
) under different Agroforestry Systems 725
Table 40.7 Total Carbon Storage under Agroforestry Systems in Different Regions of
India
726
Table 40.8 Parameters and General Methods used in Agroforestry Carbon Stock
Measurement
728
Table 40.9 Allometric Equations for Estimating Biomass (Plants with DBH >5 cm) 729
25. List of Tables xxv
Table 41.1 Potential of Tree-borne Oilseeds in India 738
Table 41.2 Effect of Crown Management on Yield of Agricultural crops under Neem
based Agroforestry
743
Table 41.3 Yield of Intercrops (Kg/ha) under Pungam based Agroforestry System 744
Table 41.4 Yield of Intercrops (Kg/ha) under 4-year-old Jatropha based Agroforestry
System
747
Table 41.5 Yield of Intercrops under 3-year-old Simaruba based Agroforestry System 748
Table 44.1 Agroforestry Education at Different Levels 797
Table 44.2 Major Agroforestry Practices in India 801
26. LIST OF FIGURES
Fig. 1.1 Agroforestry – A Potential Land Use System 14
Fig. 1.2 Agroforestry Practice – An Effective Method for Sloping Land Management 16
Fig. 1.3 Agroforestry System – A Successful Approach for Land Rehabilitation 21
Fig. 2.1 Population Growth in the Globe 35
Fig. 2.2 Scenario of Arable Land in the Globe 36
Fig. 2.3 Status of World Food (Cereal) Production 36
Fig. 2.4 Area, Production, Yield of Food Grains in India 37
Fig. 2.5 Agroforestry and Food Nutrition Security Linkages 45
Fig. 4.1 Wheat + Poplar Agrisilvicultural System in NRCAF, Jhansi 71
Fig. 4.2 Soybean + Melia azedarach Agrisilvicultural System in AICRP, UAS
Dharwad
71
Fig. 4.3 Arrangement of Trees and Crops in Alley Cropping 74
Fig. 4.4 Pattern of Alley Cropping System 75
Fig. 4.5 Windbreak and Protected Area 78
Fig. 4.6 Goat Browsing in Silvopastoral System 80
Fig. 4.7 Typical Homegarden in the Tropics 81
Fig. 5.1 Benefits of MPTs - ‘6Fs’ - (Food, Fruit, Fodder, Fuel, Fibre and Fertilizer) 94
Fig. 6.1 Biological Nitrogen Fixation 106
Fig. 6.2 Nitrogen Fixing Support Trees for fertilizing Long-term Canopy Trees 109
Fig. 6.3 Role of Nitrogen Fixing Trees in Soil Enrichment 110
Fig. 6.4 Nitrogen Cycle under Agroforestry 115
Fig. 8.1 Schematic Model of a Pathway in Agroforestry Tree Domestication Process 160
Fig. 8.2 Two Pathways for Domestication of Trees in Agroforestry 162
Fig. 8.3 Generalized Tree Species Domestigram 166
Fig. 8.4 Plant Propagation Methods 167
Fig. 9.1 Environmental Services and Multiple Benefits for Rural Livelihood from 178
27. List of Figures xxvii
Agroforestry
Fig. 9.2 Indigenous Agroforestry Systems 191
Fig. 10.1 Tree Structure 194
Fig. 10.2 Tree Canopy Architecture 195
Fig. 10.3 Various Shapes of Tree Crown 196
Fig. 10.4 Tree Roots’ Growth 198
Fig. 10.5 Tree Root Forms 198
Fig. 10.6 Tree Pruning Methods 201
Fig. 10.7 Pruning of Light and Heavy Branch 202
Fig. 10.8 Tree Pollarding 203
Fig. 10.9 Coppicing Method 205
Fig. 12.1 The Disease Triangle 225
Fig. 13.1 Assortment of Agricultural Practices that enhance Beneficial Biodiversity in
Agroforestry
266
Fig. 14.1 Economic Interactions in Agroforestry Systems 274
Fig. 14.2 Nutrient Cycling in Agroforestry 280
Fig. 15.1 Flowchart of Iterative Activities and Feedback in a D&D 293
Fig. 17.1 Import of Logs at Thoothukudi Port (Tamil Nadu) and Warehouses 315
Fig. 17.2 Marketing Channels for Eucalyptus in Punjab 320
Fig. 17.3 Distribution Channels for Wood based Products in Haryana 322
Fig. 17.4 Existing Marketing Channels of Eucalyptus and Poplar in Haryana 324-325
Fig. 17.5 Marketing Channel for Medicinal Plants based Agroforestry Model 325
Fig. 17.6 Multipartite Supply Chain of Pulpwood Industries in Tamil Nadu 326
Fig. 17.7 Marketing Channels for Timber 327
Fig. 17.8 Marketing Channels for Fire wood 327
Fig. 17.9 Marketing Channels for Secondary Wood 327
Fig. 17.10 Marketing Channels for Poles 328
Fig. 17.11 Marketing Channels for Pulpwood 328
Fig. 17.12 Marketing Channels for Match Wood 328
Fig. 17.13 Marketing Channels for Vegetables 328
Fig. 17.14 Marketing Channels for Pulses 328
Fig. 17.15 Marketing Channels for Poultry 329
Fig. 17.16 Marketing Channels for Sheep and Goat 329
Fig. 20.1 Benefits of Nutrient Cycling and Erosion Control in an Alley Cropping
System
356
Fig. 20.2 Tree and Crop Planting Design in Alley Cropping 360
28. xxviii Agroforestry Theory and Practices
Fig. 21.1 A Typical Kerala (India) Homegarden: Multistrata Composition of Various
Components
368
Fig. 21.2 A Typical Large Kerala Homegarden: Coconut based Integrated Multistrata
Farming
370
Fig. 23.1 Agro-Ecological Zones of India 430
Fig. 25.1 General Structure of a Traditional Homegarden 462
Fig. 27.1 Distribution of Salt-Affected Soils in World 487
Fig. 28.1 Illustration of Model Multi-species Riparian Buffer Strip 510
Fig. 28.2 Wetland Taro System with Bund Plantation of Banana and Other Trees 513
Fig. 28.3 Swamp Taro Cultivation in Pacific Islands as Traditional Agroforestry
System
514
Fig. 28.4 Bio-drainage System in Waterlogged Areas 525
Fig. 30.1 Types of Bamboo 553
Fig. 30.2 Bamboo based Agroforestry 558
Fig. 30.3 Bamboo based Agrisilvicultural Model 559
Fig. 31.1 Production Share of Major Fruit Crops (2010-11) 568
Fig. 36.1 Soil Productivity Linkage with Soil Degradation Processes and Soil
Conservation Practices
639
Fig. 36.2 Processes by which Trees improve Soil 642
Fig. 36.3 A Simplified Model of Nutrient Cycling in Tree-based Ecosystem 646
Fig. 36.4 Comparison of Pattern of Nutrient Cycling in Forest, Agriculture and
Agroforestry
649
Fig. 36.5 Pattern of Nutrient Cycling under Agroforestry 650
Fig. 37.1 Soil Erosion Agents 654
Fig. 37.2 Soil Conservation Strategies for Agroecosystem 659
Fig. 37.3 Contour Farming in Mizoram 669
Fig. 39.1 Effect of Moderately Penetrable and Dense Windbreaks 690
Fig. 39.2 Area Protected by One Primary Windbreak 693
Fig. 39.3 Area Protected by Two Primary Windbreaks 694
Fig. 39.4 Alignment of Access Lanes and Roads in Windbreak 694
Fig. 39.5 Windbreak Design for Wind Protection 695
Fig. 39.6 Quincunx Planting Configuration in Windbreak Agroforestry System 698
Fig. 39.7 Superior Clones of Casuarina equisetifolia in Windbreak Agroforestry
System
698
Fig. 39.8 Shelterbelt Design 701
Fig. 40.1 Global Carbon Cycle 705
Fig. 40.2 Trends in CO2 Concentration in Atmosphere 707
29. List of Figures xxix
Fig. 40.3 Top Fossil Fuel Emitters - Per Capita 708
Fig. 40.4 Greenhouse Effect and Global Warming 709
Fig. 40.5 Forest Carbon Cycle 714
Fig. 40.6 Carbon Storage in Agroforestry 720
Fig. 40.7 Major Processes Influencing Soil Carbon Pool in Agroforestry 721
Fig. 40.8 Nested Plot Design for Sampling various Carbon Stocks 731
Fig. 42.1 Volume Formulas suggested by Portion of the Stem 760
Fig. 42.2 Volume of Cylinder 761
Fig. 42.3 Volume of Cone and Frustum of a Cone 761
Fig. 42.4 Volume of Paraboloid and Frustum of a Paraboloid 762
Fig. 42.5 Volume of Neiloid and Frustum of a Neiloid 762
Fig. 42.6 Volume of Sectional Piece of the Main Bole 763
Fig. 43.1 Remote Sensing Process and Components 775
Fig. 43.2 Multistage Remote Sensing Concept 778
Fig. 43.3 The Concept of Layers in GIS 783
Fig. 43.4 GIS Components 784
Fig. 43.5 Vector Representation of GIS Data 787
Fig. 43.6 Raster Representation of Discrete Features 787
Fig. 45.1 Comparison of Technology Performance On-station and On-farm with
Different Levels of Farmer Involvement
810
Fig. 45.2 Demonstration of the New System’s Improved Performance 811
Fig. 45.3 Research Objectives and Levels of Farmer Involvement in Different Types
of OFR
812
Fig. 46.1 Interaction of Major Components in an Agroforestry Land Use 819
Fig. 46.2 Elements of Good Research Design 822
Fig. 46.3 Experimental Design for Soil Sampling under a Tree 831
30. ABBREVIATIONS AND ACRONYMS
A&R : Afforestation and Reforestation
ACIAR : Australian Centre for International Agricultural Research
AEZs : Agro-Ecological Zones
AF : Agroforestry
AFLP : Amplified Fragment Length Polymorphism
AFNETA : Alley Farming Network for Tropical Africa
AFRENA : African Research Network on Agroforestry
AFS : Agroforestry System
AFTA : Association for Temperate Agroforestry
AFTPs : Agroforestry Tree Products
AGB : Aboveground Biomass
AICRP : All India Coordinated Research Project
AICRP-
Agroforestry
: All India Coordinated Research Project on Agroforestry
AIDAB : Australian International Development Assistance Bureau
ANAFE : African Network for Agriculture, Agroforestry and Natural Resources
Education
APAN : Asia-Pacific Agroforestry Network
ASB : Alternatives to Slash-and-Burn
B/C Ratio : Benefit/Cost Ratio
BCTIO : British Colombia Trade and Investment Office
BNF : Biological Nitrogen Fixation
CA : Conservation Agriculture
CAF : Complex Agroforestry Systems
CAMCORE : Central American and Mexico Coniferous Resources Cooperative
CAPS : Cleaved Amplified Polymorphic Sequences
31. Abbreviations and Acronyms xxxi
CBD : Convention on Biological Diversity
CDIAC : Carbon Dioxide Information Analysis Center
CEC : Cation Exchange Capacity
CFA : Commonwealth Forestry Association
CFCs : Chlorofluorocarbons
CGIAR : Consultative Group on International Agricultural Research
CIAT : International Center for Tropical Agriculture
CIDA : Canadian International Development Agency
CIFOR : Centre for International Forestry Research
CIRAD-Forêt : Centre de coopération internationale en recherche agronomique pour le
développement
COP : Conference of the Parties
CPR : Common Property Resources
CRD : Completely Randomized Design
CSIRO : Commonwealth Scientific and Industrial Research Organization
CSSRI : Central Soil Salinity Research Institute
CSTAF : Center for Subtropical Agroforestry
CSWCRTI : Central Soil and Water Conservation Research and Training Institute
D&D : Diagnosis and Design
DANIDA : Danish International Development Agency
DBH : Diameter at Breast Height
DoLR : Department of Land Resources
EAI : Equivalent Annual Income
EFI : European Forest Institute
ESP : Exchangeable Sodium Percent
ESTs : Expressed Sequence Tags
ET : Evapotranspiration
ETFRN : European Tropical Forest Research Network
EURAF : European Agroforestry Federation
FACT Net : Forest, Farm, and Community Tree Network
FAO : Food and Agricultural Organization of the United Nations
FARA : Forum for Agricultural Research in Africa
FDC : Forest Development Corporation
FGNFTs : Fast Growing Nitrogen Fixing Trees
FINNIDA : Finnish International Development Agency
FIO : Forest Industries Organization
32. xxxii Agroforestry Theory and Practices
FRIM : Forest Research Institute Malaysia
FSR/E : Farming Systems Research/Extension
FYM : Farm Yard Manure
GDP : Gross Domestic Product
GEF : Global Environment Facility
GHGs : Greenhouse Gases
GIS : Geographic Information System
GPP : Gross Primary Production
Gt : Gigaton
GTZ : Deutsche Gesellschaft für Technische Zusammenarbeit (German Agency for
Technical Cooperation)
GWP : Global Warming Potential
HCFCs : Hydrochlorofluorocarbons
HDSR : High Density Short Rotation
HFCs : Hydrofluorocarbons
IAASTD : International Assessment of Agricultural Knowledge, Science and
Technology for Development
IARCs : International Agricultural Research Centers
IBPGR : International Board for Plant Genetic Resources
ICAR : Indian Council of Agricultural Research
ICARDA : International Center for Agricultural Research in the Dry Area
ICEF : India-Canada Environment Facility
ICFRE : Indian Council of Forestry Research and Education
ICRAF : International Centre for Research in Agroforestry (World Agroforestry
Centre)
ICRISAT : International Crops Research Institute for the Semi-Arid Tropics
IDRC : International Development Research Centre
IFPRI : International Food Policy Research Institute
IFS : Integrated Farming System
IGNFA : Indira Gandhi National Forest Academy
IIED : International Institute for Environment and Development
IIFS : Intensive Integrated Farming System
IIRR : International Institute of Rural Reconstruction
IISD : International Institute for Sustainable Development
IITA : International Institute of Tropical Agriculture
IITF : International Institute of Tropical Forestry
ILCA : International Livestock Centre for Africa
33. Abbreviations and Acronyms xxxiii
ILRI : International Livestock Research Institute
INBAR : International Network for Bamboo and Rattan
INM : Integrated Nutrient Management
IPCC : Intergovernmental Panel on Climate Change
IPM : Integrated Pest Management
IPNS : Integrated Plant Nutrition Systems
IRR : Internal Rate of Return
ISTC : International Standard Trade Classification
IUCN : International Union for Conservation of Nature
IUFRO : International Union of Forest Research Organizations
JFMC : Joint Forest Management Committees
KVK : Krishi Vigyan Kendra
LAMPS : Large-Area Multipurpose Societies
LEV : Land Expectation Value
LKTS : Lesser Known Tree Species
LPG : Length of Growing Period
LSD : Latin Square Design
LULUCF : Land-Use, Land-Use Change and Forestry
LUS : Land Use System
MAF : Multistoried Agroforestry System
MAPs : Medicinal and Aromatic Plants
MAS : Marker Assisted Selection
MDGs : Millennium Development Goals
MFPF : Minor Forest Produce Federation
Mha : Million Hectare
MPTs : Multipurpose Trees
MPTS : Multipurpose Trees and Shrubs
MT : Million Tons
MTS : Modified Taungya System
MUSLE : Modified Universal Soil Loss Equation
MW : Mega Watt
NAPCD : National Action Programme to Combat Desertification
NASA : National Aeronautics and Space Administration
NBM : National Bamboo Mission
NBP : Net Biome Production
NBPGR : National Bureau of Plant Genetic Resources
34. xxxiv Agroforestry Theory and Practices
NEP : Net Ecosystem Production
NEPED : Nagaland Environment Protection and Economic Development
NFAP : National Forestry Action Programme
NFP : National Forest Policy
NFTA : Nitrogen Fixing Tree Association
NFTs : Nitrogen Fixing Trees
NPP : Net Primary Production
NPV : Nuclear Polyhedrosis Virus
NPV : Net Present Value
NRCAF : National Research Centre for Agroforestry
NRM : Natural Resource Management
NRSA : National Remote Sensing Agency
NRSC : National Remote Sensing Centre
NTFPs : Non-Timber Forest Products
NWDB : National Wasteland Development Board
NWFPs : Non-Wood Forest Products
NWTPs : Non-Wood Tree Products
OFI : Oxford Forestry Institute
PAGR : Plant and Animal Genetic Resources
PFCs : Perfluorocarbons
Pg : Pentagram
PGR : Plant Genetic Resources
ppm : Parts Per Million
QTL : Quantitative Trait Loci
RaCSA : Rapid Carbon Stock Appraisal
RAPD : Random Amplified Polymorphic DNA
RBD : Randomized Block Design
RCBD : Randomized Complete Block Design
REDD : Reducing Emissions from Deforestation and forest Degradation
RFLP : Restriction Fragment Length Polymorphism
RH : Relative Humidity
ROR : Rate of Return
SAC : Space Application Centre
SAF : Simple Agroforestry Systems
SALT : Sloping Agricultural Land Technology
SALWA : Semi-Arid Lowlands of West Africa
35. Abbreviations and Acronyms xxxv
SAR : Sodium Adsorption Ratio
SAT : Semi-Arid Tropics
SEANAFE : Southeast Asian Network for Agroforestry Education
SFCs : State Forest Corporations
SFR : Short Rotation Forestry
SFRC : Southern Forest Rangers College
SIDA : Swedish International Development Agency
SLM : Sustainable Land Management
SNPs : Single Nucleotide Polymorphisms
SOC : Soil Organic Carbon
SOM : Soil Organic Matter
SPWD : Society for Promotion Wasteland Development
SSRs : Simple Sequence Repeats
SWEET : Sloping Watershed and Environmental Engineering Technology
TAFCORN : Tamil Nadu Forest Plantation Corporation
TAI : Tree-Animal Interface or Tree-Animal Interaction
TBOs : Tree Borne Oil Seeds
TCI : Tree-Crop Interface or Tree-Crop Interaction
TDC : Tribal Development Corporation
TDP : Tree Domestication Program
TLC : Total Literacy Campaign
TOF : Trees Outside Forests
UMCA : University of Missouri Center for Agroforestry
UNCBD : United Nations Convention on Biological Diversity
UNCCD : United Nations Convention to Combat Desertification
UNCED : United Nations Conference on Environment and Development
UNDP : United Nations Development Programme
UNEP : United Nations Environment Programme
UNFCCC : United Nations Framework Convention on Climate Change
UNICEF : United Nations Children’s Fund
USDA-NAC : United States Department of Agriculture – National Agroforestry Center
USLE : Universal Soil Loss Equation
VFC : Village Forest Committees
VOCs : Volatile Organic Compounds
VVK : Van Vigyan Kendra
WBG : World Bank Group
36. xxxvi Agroforestry Theory and Practices
WEHAB : Water, Energy, Health, Agriculture and Biodiversity Initiative
WMO : World Meteorological Organization