South Asia
Southeast and East Asia
Key features of the South Asia sub-region in terms of potential of the farming systems are summarized in Box 1. Of the 11 farming systems of the sub-region, four, namely, rice-wheat, rainfed mixed, rice-rice, and highland mixed, in that order, are most important. These four systems engage 87 percent of the agricultural population, 33, 30, 17 and 7 percent, respectively. The rice-wheat system has the highest potential for growth and poverty alleviation, while the other three have moderate potential. Livestock and horticultural crops are integral parts of most of the farming systems.
For the sub-region as a whole, cereal production is expected to reach 392 million tons by the year 2030. The large-ruminant population is expected to stabilize or even decline. Globalization provides comparative advantages to adopt integrated farming systems, geared to niche export markets for horticultural, livestock, and fish products. Even within the sub-region, consumption/head of both meat and dairy products is forecast to double in the next 30 years. The urbanization trend - increasing from the current level of 28 percent to 53 percent in 2030 - and the increased demand for off-farm employment, may require increased mechanization.
The irrigated-land-area proportion is expected to grow slowly, from 40 percent now to 44 percent in 2030. On non-irrigated land, soil erosion, and overgrazing, if not arrested, will further degrade the natural resource base. Water resources must be managed more efficiently from basin level to farm level to avoid a "water crisis" over major parts of the region.
If significant climate changes were to occur, low lying coastal areas will come under intensive pressure from sea level rise, storms and flooding and rainfed semi-arid areas are likely to be seriously affected by increased rainfall variability.
Key features of the East Asia sub-region in terms of potential of the farming systems are summarized in Box 2. Of the 11 farming systems identified for this sub-region, four systems, namely, lowland rice, upland rice intensive mixed, temperate mixed and tree crops mixed, in that order, are most important. These four systems account for 89 percent of the agricultural population: 44, 28, 14 and 3 percent, respectively. The tree crops mixed system has highest potential, while the other three have moderate potentials. Livestock and horticultural crops are important components of all the four systems. Under lowland rice, aquaculture is also important.
In this most populous sub-region of the world, the population is projected to grow to 2.31 billion by 2030. The proportion of urbanization is expected to rise from the current 37 percent to 53 percent by 2030. There are eight low-income food deficit countries in the region. The current average food intake is 2783 kcal/person/day and is expected to increase to 3170 kcal by 2030, accompanied by improvement in the quality of the diet with significant growth in consumption of meat (65 percent increase by 2030), milk and dairy products (90 percent), thus underpinning strongly the need for promotion of synergistic linkages between crop-agroforestry-livestock sectors for growth in agricultural GDP and poverty reduction.
Box 1: Characteristics and potentials of farming systems: South Asia
|
Farming systems |
Land area (percent of region) |
Agric popn* (percent of region) |
Principal livelihood |
Incidence of poverty |
Potential for poverty reduction |
Potential for agric. growth |
|
Rice |
7 |
17 |
Rice (both seasons), vegetables, legumes, off-farm
activities |
Extensive severe poverty |
Moderate |
Moderate |
|
Coastal artisanal fishing |
1 |
2 |
Fishing, coconuts, rice, legumes, livestock |
Moderate to severe poverty |
Moderate |
Low |
|
Rice-wheat |
19 |
33 |
Rice, wheat, vegetables, livestock including dairy, off-farm
activities |
Extensive moderate and severe poverty |
High |
Moderate-high |
|
Highland mixed |
13 |
7 |
Cereals, livestock, horticulture, seasonal migration |
Moderate to severe poverty |
Moderate |
Moderate |
|
Rainfed mixed |
29 |
30 |
Cereals, legumes, fodder crops, livestock, off-farm
activities |
Extensive poverty, severity varies seasonally |
Moderate |
Moderate |
|
Dry rainfed |
4 |
4 |
Coarse cereals, irrigated cereals, legumes, off-farm
activities |
Moderate poverty |
Moderate |
Moderate-high |
|
Pastoral |
11 |
3 |
Livestock, irrigated cropping, migration |
Severe poverty, especially drought included |
Low |
Low |
|
Sparse (arid) |
11 |
1 |
Livestock where seasonal moisture permits |
Severe poverty, especially drought induced |
Low |
Low |
|
Sparse (mountain) |
7 |
0.4 |
Summer grazing of livestock |
Severe poverty, especially in remote areas |
Low |
Low |
|
Tree crop |
little, dispersed |
little |
Export or agro-industrial crops, cereals, wage
labour |
Moderate poverty, mainly of agricultural workers |
Moderate |
High |
|
Urban based |
neg |
little |
Horticulture, dairying, poultry, other activities |
Moderate |
Low |
Low |
Source: Weatherhogg, Dixon and de Alwis, 2001, FAO, RomeBox 2: Characteristics and potentials of farming systems: Southeast and East Asia
Principal farming systems are shaded.
*Defined as those working in crop or livestock production or forestry and their dependents.
|
Farming systems |
Land area (percent of region) |
Agric popn* (percent of region) |
Principal livelihood |
Incidence of poverty |
Potential for Poverty reduction |
Potential for agric. Growth |
|
Lowland rice |
12 |
44 |
Rice, maize, pulses, sugarcane, oilseeds, vegetables,
livestock, aquaculture |
Extensive severe poverty |
Moderate |
Moderate |
|
Tree crops mixed |
5 |
3 |
Rubber, oil palm, coconuts, coffee, tea, cocoa, spices, rice,
livestock |
Moderate poverty mainly of smallholders |
High |
High |
|
Upland intensive mixed |
20 |
28 |
Rice, pulses, maize, sugarcane, oil seeds, fruits, vegetables,
livestock |
Extensive moderate and severe poverty |
Moderate |
Moderate |
|
Highland extensive mixed |
6 |
4 |
Upland rice, pulses, maize, oil seeds, fruits, forest
products, livestock |
Moderate to severe poverty |
Moderate |
Moderate |
|
Temperate mixed |
6 |
14 |
Wheat, maize, pulses, oil crops, livestock |
Extensive moderate and severe poverty |
Moderate |
Low |
|
Pastoral |
20 |
1 |
Livestock with irrigated crops in local suitable
areas |
Severe poverty especially drought induced |
Low |
Low |
|
Root-tuber |
1 |
<1 |
Root crops (yam, taro, sweet potato), vegetables, fruits,
livestock (pigs and cattle) |
Limited poverty |
Good |
Moderate |
|
Sparse (forest) |
11 |
1 |
Hunting, gathering |
Moderate |
Low |
Low |
|
Spare (arid) |
20 |
2 |
Local grazing where water available |
Severe |
Moderate |
Low |
|
Urban based |
not available |
little |
Horticulture, dairy, poultry |
Low to moderate |
Low |
Moderate |
|
Coastal artisanal fishing |
not available |
little |
Fishing, coconut, mixed cropping |
Moderate |
Moderate |
Low |
Source: Ivory, 2001, FAO, Rome/BangkokCrop yield in the sub-region is projected to grow only by 1.2 percent per annum, up to 2030. Rice production is projected to increase by only 0.7 percent per annum up to 2030. Wheat production is expected to rise by 1.4 percent per annum during the period 2000-2015. Substantial increases in production of maize and barley are expected, while little increase in production is anticipated for millets, sorghum, cassava, and pulses. Total cereal production is expected to reach 708 million tons by the year 2030. The production of oil crops, fruits and vegetables is expected to increase substantially by 2030.
Principal farming systems are shaded.
*Defined as those working in farming, forestry or fishing and their dependents.
The past and future trends for bovines and small ruminant production in the region are similar; they project increases annually of 1.3 percent up to 2030. The potential for increasing the supply of feeds for ruminants is anticipated to be a significant constraint; it calls for a system-wide integration between the crop and livestock sectors in land use and allocation among crops. Animal feed supplies will come from large increases in maize production at the expense of rice and wheat production.
