Agroforestry technical manual: Option: Son tra – Forage grass

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference.

Agroforestry technical manual. Option: Teak – Plum – Coffee – Soybeans – Forage Grass

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference

Agroforestry technical manual: Option: Longan – Maize – Forage Grass

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference

Agroforestry Technical Manual. Option: Shan Tea – Forage Grass

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference

Agroforestry Technical Manual. Option: Acacia – Mango – Maize – Forage Grass

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference

Agroforestry Technical Manual. Option: Acacia – Longan – Coffee – Soybeans – Forage Grass

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference

Agroforestry Technical Manual. Option: Macadamia – Coffee – Soybeans

A set of technical manual of 7 Agroforestry options implemented in Northwest Viet Nam under Agroforestry for livelihoods of smallholder farmers in Northwest Viet Nam (Phase I) and Developing and promoting market-based agroforestry and forest rehabilitation options for Northwest Viet Nam (Phase II) project. Each guideline includes (1) Introduction, (2) Design, (3) Planting techniques and fertilizing, (4) pruning and canopy formation, (5) pests and diseases prevention, (6) harvesting, (7) economic efficiency and (8) reference

Linking resource supplies and price drivers: Lessons from Traditional Chinese Medicine (TCM) price volatility and change, 2002-2017

Worldwide, one of the drivers of substitution and adulteration is the cost of the natural resources (plants, animals, fungi) that are ingredients of traditional medicines. Relatively few studies have been done that link prices of traditional medicine ingredients to what drives changes in price, yet this is an important topic. Theoretically, prices have been widely considered as an economic indicator of resource scarcity. Rare, slow growing medicinal plants sell for high prices and common, less popular species for low prices. Price levels also influence the viability of farming vs. wild harvest (and incentives to overharvest high value species when tenure is weak). Prices can also influence the harvesting or buying behaviour of harvesters, traders or manufacturers. When prices are high, then there is a greater incentive to use cheaper substitute species or adulterants. As previous studies on herbal medicine ingredients have shown, adulteration applies in a wide variety of cases, including to some Traditional Chinese Medicine (TCM) species.

Assessment of the economic and environmental benefits of on-farm agroforestry practice in Northwest Vietnam

Maize (Zea mays) cultivation in Northwest Vietnam has dramatically increased on the formerly shifting cultivation lands since the 1990ies, where more than half the area has slopes of over 20 degrees. Traditional cultivation practices in the region, mainly based on intensive tillage combined with burning crop residues, had resulted in severe erosion, soil degradation, reduced crop productivity and significant environmental impacts. However, farmers still apply monoculture maize in sloping lands. The main reason is because they lack financial backup to shift into new practices. The study aimed to assess the economic and ecological benefits of agroforestry practice in the context of the upland areas in Northwest Vietnam. This study presents the actual benefit assessment of a designed agroforestry system with late fruiting-longan (Dimocarpus longan) together with maize and forage grass strips (guinea – Panicum maximum) during 2012-2017 using cost and benefit analysis, land equivalent ratio (LER) and quantification of soil loss. The two monoculture systems, mono-maize and mono-longan, were used for comparison. The results showed that the longan+maize+forage grass system gave an early income from forage grass and maize. Forage grass yielded 17 ton ha-1 year-1. Maize yield was not significantly different from mono-maize and the average dry grain yield was 4.5 ton ha-1 yr-1. The longan trees started to bear fruit in the 4th year; it yielded 0.06 ton ha-1 which increased to 0.38 ton ha-1 in the 6th year. Longan in mono-longan system also started bearing fruits in the 4th year. In terms of profitability, the net profit of the mono-maize was initially 23 million VND ha-1 yr-1. However, it decreased to 4 million VND ha-1 yr-1 in the 6th year, mainly due to drop in maize price. Mono-longan system was only reaching a profit of 3 million VND ha-1 in the 6th year. Meanwhile, the longan+maize+forage grass system had a positive profit of 18 million VND ha-1 in the 2nd year which increased successively to 33 million VND ha-1 in the 6th year. The break-even point of the longan+maize+forage grass system was after one year of planting, and the payback period of the loan-credit provided to farmers was one year after planting. The LER from 2013 to 2017 of the longan+maize+forage grass system ranged from 1.05 to 1.84. Regarding the effectiveness in controlling soil loss, longan+maize+forage grass system reduced soil loss by 50, 56 and 77% in comparison with mono-maize system in 2015, 2016 and 2017, respectively. The data proved that the evaluated agroforestry system gave higher productivity, profitability, early returns to investment and significant reduced soil loss as compared to monocultural systems. We will continue monitoring and evaluating different agroforestry systems and tree species to provide the options for agroforestry development in sloping land area in Northwest Vietnam.

Allanblackia propagation protocols

This protocol is an application of practice in Allanblackia domestication team as experienced and practiced by the research and development programme in Cameroon, Ghana, Nigeria and Tanzania. It is a research and development tool with particular biases on participatory domestication as basic foundation of quality and quantity seedling development. The preparation of this protocol been developed into modules by its scientific staff in support of various groups participating in domestication of this species. This training manual has been developed for the fol-lowing reasons: • To support the various domestication research and development activities.• To provide reference material for participating institutions and extension agents when they are propagating AB trees.• To provide guidelines and resource material for managers and/or resource persons who wish to organize a training course in the future.In producing this protocol reasonable care has been taken to ensure that all statements represent the best information available. ICRAF and its partners/collaborators shall not be liable on any ground for any loss, damage, or liability incurred as a direct or indirect result of any reliance by any person or institu-tion upon information contained or opinions expressed in this work. The opinions or views expressed in this publication are those of the author alone and do not imply any opinion whatsoever on the part of the World Agroforestry Centre (ICRAF) or its partners or collaborating institutes. Comments and suggestions are invited and can be addressed to the editor(s) or to the author(s) themselves. These protocol notes are periodically reviewed and updated to reflect advances in this species research and development

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