Drylands are characterised by low, erratic, and infrequent rainfall, intense evaporation and limited water resources. The arid nature limits the dryland's water carrying capacity and potential for rural development. Increased demands for food, feed, and fuel (wood) have increased the pressure on existing arable area in these lands and resulted in increased utilisation of marginal lands. Due to high aridity, only thorny and drought-resistant species that grow and regenerate slowly when degraded, thrive in these areas. Consequently, natural dryland ecosystems are easily damaged in areas where human pressure on the land increases.
Livestock rearing and irrigated farming are possible in the arid zones. Rainfed farming is generally practised in semi-arid zones, but is risky due to uncertain rainfall distribution and the threat of drought. Pressure on the natural resources is highest in the semi-arid zone where livestock rearing and rainfed farming compete for land, and towards the water (sub-humid) margins, where population pressure tends to be the highest.
The main processes of soil degradation associated with desertification may be summarised as follows:
increased land pressure leads to local loss of vegetation cover and increased area of bare patches. Removal of crop (residues) for fuel or fodder reinforces this trend.
direct exposure of top soil to solar radiation increases soil temperature and the rate of organic matter decomposition.
loss of organic matter causes soil structural degradation (porosity, aggregate stability), reduces water holding capacity, decreased infiltration and increased runoff.
decline in organic matter content decreases nutrient storage properties. Nutrients are lost by percolation and the efficiency of chemical fertilisers is reduced.
impact of rain and sun on bare topsoil results in crusting; water infiltration is further reduced, and percentage of runoff increases.
sediments are carried away by erosion. Effective soil depth accessible to plant roots decreases, leaving exposed restrictive soil layers or bare rock.
exposed soil is eroded by wind, crops are destroyed by dust bearing winds (off-site effects), and dunes may encroach on arable land.
in the worst-case scenario, gradually degraded patches link up to form extended areas of bare and degraded land. At this stage, reclamation becomes virtually impossible.
Controlling desertification requires environmental management, water and soil management. In most cases, changes in soil properties by direct human influence are far greater than effects induced by direct climate change. When new land is being developed, or land use is being changed, it is important to survey the resources to assess their suitability, thereby reducing the expansion of cropping onto marginal land. Development of new livestock breeds would also improve productivity and reduce pressures on the land, particularly if critical dry-season fallows are re-introduced.
Studies of land degradation processes have resulted in various qualitative and quantitative models which are useful to test scenarios and explore alternatives to current land uses. Uniform databases of the main environmental factors are critical for developing, testing and running these models. Land users and planners may protect soil resources from global change (climate, atmospheric pollution, drought, and erosion) by:
conserving soil (micro)biological diversity and by maintaining a closed ground cover. This can be done by means of conservation or minimum tillage, water management, and erosion control and planting of hedgerows.
using integrated plant nutrient management systems.
restoration of degraded and eroded lands by afforestation, agroforestry, improved pastures with low stocking rates, use of chemical fertilisers, ecologically compatible farming systems, conservation tillage, mulch (a mixture of wet straw and leaves spread around to enrich the soil) farming techniques, fertility maintenance, and integrated pest management.
developing and promoting viable alternatives to subsistence and resource-based agriculture.
considering socioeconomic issues that limit the land users ability to remedy land degradation (lack of secure tenure or ownership of the land, limited access to inputs, and possible lack of knowledge and technology to effectively use these inputs).
Experts opine that it could well be that the percentage growth response of natural ecosystems to atmospheric co2 enrichment will be greater than that of managed agricultural systems. Some ecosystem models suggest that plant growth under increased atmospheric co2 concentrations may eventually become nutrient-limited. In future, this can cause these elements to become limiting for plant growth, a problem which may be addressed by larger applications of chemical fertilisers and promotion of integrated plant-nutrition measures in agro-ecosystems.
With respect to drylands, experts fear a decrease in shrub abundance, an increase in half-shrubs and herbaceous species, an increase in c plants, an increase in c/n ratio in plant tissues, accompanied by a decrease in succulents induced by climate change. Even without climatic change, there may be an increase in dryland salinisation and wind and water erosion in these areas.
Human activities in the world's dryland areas is reducing the possibility for sustainable agriculture. It is likely that vegetation-based c -management or miti-gation measures like afforestation or limited tillage cannot fully offset the existing anthropogenic disturbances of the global c cycle. Hence, policies must be developed to arrest the fundamental causes of land degradation and greenhouse gas increases - non-sustainable land use practices and increasing fossil fuel use - which are driven by growing human population and economic development. However, while assessing prospects for combating land degradation in dryland regions, it must be kept in mind that the adopted strategies can only be effective with the willing participation of the rural people of the regions.
N H Batjes is with the International Soil Reference and Information Centre, AJ Wageningen, The Netherlands