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436 results on '"Semiarid zones"'

401. A insulação escrotal na fertilidade de caprinos adultos

Author

SANTOS, D. O., SIMPLÍCIO, A. A., Diônes Oliveira Santos, CNPC, and Aurino Alves Simplício, CNPC.

Subjects
Termorregulação, Biometria testicular, Brasil, Goats, Bode, Animal morphology, Seminal degeneration, Espermatozóide, Bucks, Semiárido, Qualidade, Thermoregulation, Spermatozoa, Região Nordeste, Testículo, Semiarid zones, Sperm motility, Circunferência escrotal, Caprino, Morfologia espermática, Scrotal insulation, Degeneração seminal, Sêmen, Brazil, Insulação escrotal
Abstract

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Published
1993

402. Grazing options to intensify land use

Author

Turner, M. and Turner, M.

Abstract

The author shows the importance of analysing the variability in farmers' practices in managing livestock and crops in the West African Sahel to see what the effects are for soil fertility

Published
1994

403. Soil tillage options for water management under erratic-rainfall conditions

Author

Hoogmoed, W.B., Berkhout, J.A.A., and Stroosnijder, L.

Subjects
grondbewerking, Leerstoelgroep Bodemtechnologie, erosion control, zaaibedbereiding, Soil Technology Group, soil conservation, water conservation, waterbescherming, pampas, seedbed preparation, steppen, semi-aride klimaatzones, Tropische cultuurtechniek, erosiebestrijding, pampa's, tillage, Irrigation and Soil and Water Conservation, bodembescherming, steppes, semiarid zones
Published
1992

404. La gestion des parcours de l'aire d'influence du forage de Tatki: Relations entre données de végétation, taux d'exploitation et transhumance

Author

Diop, A. T. and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects
Semiarid zones, Transhumance, Range management, Dry season, Pastoralism, Biomass energy, Livestock carrying capacity, Intensity of change, Ecosystem Farm/Enterprise Scale Field Scale, Pasture management
Abstract

Metadata only record Cette étude vise à acquérir une meilleure connaissance de l'utilisation des parcours en saison sèche et de la mobilité des éleveurs en Zone Sylvopastorale de Sénégal. Elle s'est déroulée d'octobre 1989 à juillet 1990 au niveau de l'aire d'influence du forage de Tatki. Dans un premier temps, ont été déterminés les relations entre le taux d'exploitation des parcours et différentes paramètres du milieu (biomasse et composition floristique de la strate herbacée en fin de saison des pluies, distance au forage et type de sol). Par la suite, l'incidence et la biomasse, de la composition floristique de la végétation herbacée et du taux d'exploitation des parcours sur les déplacements des éleveurs est envisagée. En conclusion, les limites de l'étude pour l'élaboration de modèles d'utilisation des parcours et pour une meilleure connaissance de la mobilité pastorale sont définies. Available in SANREM office, FS

Published
1992

405. Natural resource development and utilization - Future research and technology management in soil-plant-animal-human systems

Subjects
mountain grasslands, begrazing, herstel, fuelwood, extensieve weiden, fodder trees, pampas, environmental management, milieubescherming, semi-aride klimaatzones, bronnen, foods, duurzaamheid (sustainability), tropen, berggraslanden, pampa's, natural resources, semiarid zones, hulpbronnengebruik, hulpbronnen, milieubeheer, forestry, bescherming, natural grasslands, voedingsmiddelen, protection, sustainability, quality, Human and Animal Physiology, environment, natuurlijke hulpbronnen, sources, milieu, natuurlijke graslanden, brandhout, bomen als veevoer, rehabilitation, tropics, steppen, grazing, kwaliteit, steppes, environmental protection, forests, sahel, bosbouw, rangelands, resource utilization, Fysiologie van Mens en Dier, bossen, resources
Published
1992

406. Irrigation and water conservation as complementary technologies in the semi-arid tropics

Author

Huibers, F.P. and Stroosnijder, L.

Subjects
gewassen, verliezen, irrigation, irrigation water, waterbescherming, pampas, tropics, steppen, semi-aride klimaatzones, tropen, pampa's, Irrigation and Soil and Water Conservation, irrigatiewater, waterbehoefte, steppes, semiarid zones, erosion control, soil conservation, water conservation, water requirements, crops, losses, Tropische cultuurtechniek, erosiebestrijding, efficiency, efficiëntie, bodembescherming, irrigatie
Published
1992

407. Indigenous soil and water conservation in India's semi-arid tropics

Author

Kerr, John, Sanghi, N. K., and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects
Semiarid zones, Soil conservation, Soil erosion, Water conservation, food and beverages, India, Field Scale
Abstract

Metadata only record Soil erosion is a problem that imposes both on- and off-farm costs. As soil erodes, valuable moisture and nutrients are lost, and the topsoil becomes increasingly shallow. The decline in yields that results is a private cost borne by farmers. Off the farm, downstream rivers and lakes become silted, shortening the productive lives of dams and other man-made structures. Soil particles can also transport pesticide residues, poisoning water supplies downstream. These are costs to society, but not necessarily to farmers.

Published
1992

408. Irrigation and water conservation as complementary technologies in the semi-arid tropics

Subjects
gewassen, verliezen, irrigation, irrigation water, waterbescherming, pampas, tropics, steppen, semi-aride klimaatzones, tropen, pampa's, Irrigation and Soil and Water Conservation, irrigatiewater, waterbehoefte, steppes, semiarid zones, erosion control, soil conservation, water conservation, water requirements, crops, losses, Tropische cultuurtechniek, erosiebestrijding, efficiency, efficiëntie, bodembescherming, irrigatie
Published
1992

409. Natural resource development and utilization - Future research and technology management in soil-plant-animal-human systems

Author

de Jong, R., Nolan, T., and van Bruchem, J.

Subjects
mountain grasslands, natuurlijke hulpbronnen, sources, milieu, begrazing, herstel, fuelwood, extensieve weiden, natuurlijke graslanden, fodder trees, brandhout, bomen als veevoer, pampas, rehabilitation, tropics, environmental management, steppen, milieubescherming, semi-aride klimaatzones, bronnen, foods, duurzaamheid (sustainability), tropen, berggraslanden, pampa's, grazing, kwaliteit, natural resources, steppes, environmental protection, semiarid zones, forests, hulpbronnengebruik, hulpbronnen, milieubeheer, forestry, bescherming, natural grasslands, sahel, voedingsmiddelen, protection, sustainability, bosbouw, rangelands, resource utilization, quality, bossen, resources, environment
Published
1992

410. Soil tillage options for water management under erratic-rainfall conditions

Subjects
grondbewerking, Leerstoelgroep Bodemtechnologie, erosion control, zaaibedbereiding, Soil Technology Group, soil conservation, water conservation, waterbescherming, pampas, seedbed preparation, steppen, semi-aride klimaatzones, Tropische cultuurtechniek, erosiebestrijding, pampa's, tillage, Irrigation and Soil and Water Conservation, bodembescherming, steppes, semiarid zones
Published
1992

411. Food from dry lands. An integrated approach to planning of agricultural development

Subjects
natuurlijke hulpbronnen, herstel, rainfed agriculture, economische planning, landgebruik, pampas, rehabilitation, steppen, models, semi-aride klimaatzones, economic planning, socioeconomics, duurzaamheid (sustainability), Theoretical Production Ecology, pampa's, farming systems, regenafhankelijke landbouw, natural resources, steppes, semiarid zones, modellen, hulpbronnengebruik, research, zoning, plattelandsontwikkeling, bescherming, land use, sociale economie, zonering, protection, sustainability, Laboratorium voor Theoretische Productie Ecologie en Agronomie, onderzoek, pastoralisme, resource utilization, nomadism, bedrijfssystemen, plattelandsplanning, nomadisme, dry farming, ruimtelijke ordening, physical planning, rural planning, pastoralism, rural development
Abstract

This book centers around an analysis of the options for the agronomic development of semiarid regions with winter rains (i.e. Mediterranian regions). Crop and sheep husbandry systems were designed and integrated into agro-pastoral systems in which small-grain crops act as a buffer for feed production. These systems served as a basis for rational planning of regional agricultural development under alternative development objectives.

Published
1992

412. Food from dry lands. An integrated approach to planning of agricultural development

Author

Alberda, T., van Keulen, H., Seligman, N. G., de Wit, C. T., and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects
herstel, Agropastoral systems, landgebruik, pampas, semi-aride klimaatzones, duurzaamheid (sustainability), Theoretical Production Ecology, pampa's, natural resources, semiarid zones, hulpbronnengebruik, Farm/Enterprise Scale Field Scale, Development planning, plattelandsontwikkeling, bescherming, sociale economie, zonering, protection, sustainability, onderzoek, pastoralisme, bedrijfssystemen, ruimtelijke ordening, physical planning, rural planning, Semiarid regions, natuurlijke hulpbronnen, rainfed agriculture, economische planning, rehabilitation, steppen, models, economic planning, socioeconomics, farming systems, regenafhankelijke landbouw, steppes, modellen, research, zoning, land use, Small-grain crops, Laboratorium voor Theoretische Productie Ecologie en Agronomie, resource utilization, nomadism, plattelandsplanning, nomadisme, dry farming, pastoralism, rural development
Abstract

Metadata only record The book centers on an analysis of the options for the agronomic development of semiarid regions with winter rains (i.e. Mediterranean regions). Data obtained in the northern Negev desert in Israel serve as a starting point. On the basis of these data, crop and sheep husbandry systems were designed and integrated into agro-pastoral systems in which small-grain crops act as a buffer for feed production. These systems served as a basis for rational planning of regional agricultural development under alternative development objectives. In analyzing the possibilities, a three-step approach was developed: first the feasibility and robustness of selected innovative techniques at the farm level were investigated in relation to variability in weather and prices, then a matrix of production techniques for a region was formulated in terms of their physical inputs and outputs, and finally, this matrix was embedded into a dynamic multiple-goal linear programming model. In comparing the results for different goals, the consequences for goal achievement and desired production techniques can be made explicit, and in this way the book can be a guide for actual development planning in semiarid regions.

Published
1992

413. Dryland watershed development and management: A case study in Karnataka

Author

Singh, K. and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects
Semiarid zones, Soil conservation, Fertilization, Dryland farming, Community-based organizations, Agroforestry, Groundwater, Watershed, Government institutions
Abstract

Metadata only record Approximately 70% of India's cultivated land is considered dryland. Much effort has been devoted to promoting water conservation for agricultural use. In 1984, a District Watershed Development Programme was begun in 19 watersheds in the state of Karnataka to put into practice findings from a previous pilot study funded by the World Bank. Results from the Mittemari Watershed are presented in this case study. The project is the result of collaboration and funding from the Government of Karnataka, University of Agriculture Sciences in Bangalore, the Indian Council of Agricultural Research, Central Research Institute of Dryland Agriculture (CRIDA), and the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT).

Published
1991

414. A Review of Mixed Farming Systems in the Semi-Arid Zone of Sub-Saharan Africa

Author

Mortimore, M. and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects
Semiarid zones, Mixed farming, Farm/Enterprise Scale, Farming systems, Environmental degradation
Abstract

Metadata only record Research in the past has tended to concentrate on specialized systems of crop or livestock production. Recent drought experience in Africa has however re-emphasized the complementary economic roles of livestock and crops in contributing to household viability, especially during crop failures. The objectives of this study were to: (1) regionalize the semiarid zone of sub-Saharan Africa into environmentally homogeneous units to which particular mixed farming systems may be assigned; (2) to propose a taxonomy of mixed farming systems; inventory a range of representative mixed farming systems characterized in the literature; and to review contemporary trends with respect to environmental management. The study is intended to facilitate the targeting of ILCA's research programmes which aim to increase the productivity and maximize the economic and environmental sustainability of farming systems. (CAB Abstract)

Published
1991

415. Food from dry lands. An integrated approach to planning of agricultural development.

Author

Alberda, Th., van Keulen, H., Seligman, N.G., de Wit, C.T., Alberda, Th., van Keulen, H., Seligman, N.G., and de Wit, C.T.

Abstract

This book centers around an analysis of the options for the agronomic development of semiarid regions with winter rains (i.e. Mediterranian regions). Crop and sheep husbandry systems were designed and integrated into agro-pastoral systems in which small-grain crops act as a buffer for feed production. These systems served as a basis for rational planning of regional agricultural development under alternative development objectives.

Published
1992

416. Improving land care in West Africa

Subjects
plattelandsontwikkeling, sahel, sociale economie, PE&RC, sustainability, economische planning, pampas, steppen, semi-aride klimaatzones, economic planning, socioeconomics, Tropische cultuurtechniek, plattelandsplanning, duurzaamheid (sustainability), pampa's, Irrigation and Soil and Water Conservation, indigenous knowledge, rural planning, steppes, rural development, semiarid zones, inheemse kennis
Abstract

Rainfed agriculture in the West African Sahel is in transition between shifting cultivation based on renewable resources and more permanent farming with addition of external inputs. Some important issues concerning this agricultural development including the aspect of land degradation, are shortly described

Published
1994

419. Rainfed agriculture in a semi-arid tropical climate : aspects of land- and watermanagement for red soils in India

Author

Horst, L., van der Molen, W.H., Huibers, F.P., Horst, L., van der Molen, W.H., and Huibers, F.P.

Abstract

Rainfed agriculture is defined as the production of field crops that completely depend on the local precipitation for their water supply. Although in the semi-arid tropics the mean annual precipitation might seem to be sufficient to grow (adapted) crops, its variability over the years and its erratic distribution over the season pose problems. During relatively dry periods, the crop might suffer from moisture stress, at other times excessive rainfall occurs, causing water logging and erosion. This creates specific problems for crop production. The red soils, as a general indication of a group of mainly sandy loam soils, including Alfisols, have a low profile water storage capacity, often aggravated by their shallowness. Therefore, they generally lack sufficient buffer capacity to transfer water from a rainy period to a subsequent period of insufficient rainfall. Thereby, red soils have a poorly developed structure and the aggregates of the topsoil are easily dispersed upon wetting, resulting in a surface sealing. Raindrop impact causes a further compaction of the top layer. Under these adverse conditions, the infiltrability of the red soils will be strongly reduced and frequently surface runoff occurs well before the profile is saturated, even early in the rainy season.Production levels under such water-limited conditions are bound to be low. Yet, millions of people in the semi-arid tropics depend on them. In tropical India alone, the area of red soils that is yearly cropped can be estimated at as much as 50 million hectares. Common food-crops are mostly local varieties of sorghum, millets and grams, with average yield levels well below 1 t/ha. Important cash crops include groundnut, castor and sesame, with similarly low yields. Expansion of agricultural fields, in the case of red soils mainly under the pressure of population growth has been bringing less suitable areas under permanent cultivation and worsening crop rotation over the last 50 years or so. This leads

Published
1985

420. Elephants, trees, grass, grazers : relationships between climate soils, vegetation and large herbivores in a semi-arid savanna ecosysteem (Tsavo, Kenya)

Subjects
mountain grasslands, Vegetatiekunde, begrazing, ecological balance, diergemeenschappen, extensieve weiden, pampas, semi-aride klimaatzones, berggraslanden, pampa's, elephantidae, ecologie, evenwicht, semiarid zones, disturbance, natural grasslands, plant succession, savanna woodlands, animals, ecology, stabiliteit, natuurlijke graslanden, savannebossen, vegetatie, equilibrium, animal communities, steppen, vegetation, biotopes, dieren, grazing, landschapsecologie, steppes, landscape ecology, proboscidea (mammals), landschap, landscape, stability, biotopen, herbivores, rangelands, plantensuccessie, verstoring, proboscidea (zoogdieren), kenya, ecologisch evenwicht, herbivoren, plantenoecologie en onkruidkunde, Plant Ecology and Weed Science, Vegetation Science
Abstract

Based on descriptions of the climate, soils, vegetation and large herbivore populations, relationships are described between the different components of the Tsavo ecosystem. It appears that there is a strong correlation between the floristic composition of the vegetation and the physical environment (climate and soil). The structure of the vegetation, however, is related more to the density of elephants and the activity of man (fire). The production of the vegetation is strongly related to rainfall and the percentage cover of the relevant vegetation component. Large herbivore distribution and density is related to human activity and the amount and type of forage that is available in a dry year. Static and dynamic models describing these relationships quantitatively are developed and, on the basis of simulations, some conclusions are drawn on the future management options for the national park and the nearby ranches.

Published
1985

421. Elephants, trees, grass, grazers : relationships between climate soils, vegetation and large herbivores in a semi-arid savanna ecosysteem (Tsavo, Kenya)

Author

van Wijngaarden, W., Landbouwhogeschool Wageningen, I.S. Zonneveld, and W.G. Sombroek

Subjects
mountain grasslands, begrazing, stabiliteit, ecological balance, diergemeenschappen, extensieve weiden, Vegetatiekunde, plantenoecologie en onkruidkunde, natuurlijke graslanden, savannebossen, Vegetation Science, Plant Ecology and Weed Science, vegetatie, equilibrium, pampas, animal communities, steppen, semi-aride klimaatzones, vegetation, berggraslanden, pampa's, biotopes, elephantidae, dieren, ecologie, grazing, landschapsecologie, evenwicht, steppes, semiarid zones, disturbance, landscape ecology, proboscidea (mammals), natural grasslands, plant succession, landschap, landscape, savanna woodlands, stability, biotopen, herbivores, rangelands, plantensuccessie, verstoring, animals, proboscidea (zoogdieren), kenya, ecologisch evenwicht, herbivoren, ecology
Abstract

Based on descriptions of the climate, soils, vegetation and large herbivore populations, relationships are described between the different components of the Tsavo ecosystem. It appears that there is a strong correlation between the floristic composition of the vegetation and the physical environment (climate and soil). The structure of the vegetation, however, is related more to the density of elephants and the activity of man (fire). The production of the vegetation is strongly related to rainfall and the percentage cover of the relevant vegetation component. Large herbivore distribution and density is related to human activity and the amount and type of forage that is available in a dry year. Static and dynamic models describing these relationships quantitatively are developed and, on the basis of simulations, some conclusions are drawn on the future management options for the national park and the nearby ranches.

Published
1985

422. Actual and potential production from semi-arid grasslands - phase II (APPSAG II) : 1977-1981 : final technical report and annotated bibliography : presented to the Directorate General for International Cooperation (DGIS), Ministry of Foreign Affairs, The Hague - The Netherlands and the Division for International Cooperation (MASHAV) Jerusalem - Israel

Subjects
training, grasslands, simulation models, crop production, simulatiemodellen, gewasproductie, pampas, graslanden, opleiding, steppen, semi-aride klimaatzones, computersimulatie, pampa's, computer simulation, Centrum voor Agrobiologisch Onderzoek, Centre for Agrobiological Research, steppes, semiarid zones
Published
1982

423. Rainfed agriculture in a semi-arid tropical climate : aspects of land- and watermanagement for red soils in India

Subjects
runoff farming, gewassen, no-tillage, soil water, tropische gronden, tropical soils, pampas, tropics, steppen, semi-aride klimaatzones, tropen, pampa's, Irrigation and Soil and Water Conservation, landbouw met waterafvoer, waterbehoefte, steppes, semiarid zones, regenwateropvang, india, water requirements, bodemwater, crops, cultuurmethoden zonder grondbewerking, subtropical soils, Tropische cultuurtechniek, cultivation, water harvesting, subtropische gronden, teelt
Abstract

Rainfed agriculture is defined as the production of field crops that completely depend on the local precipitation for their water supply. Although in the semi-arid tropics the mean annual precipitation might seem to be sufficient to grow (adapted) crops, its variability over the years and its erratic distribution over the season pose problems. During relatively dry periods, the crop might suffer from moisture stress, at other times excessive rainfall occurs, causing water logging and erosion. This creates specific problems for crop production. The red soils, as a general indication of a group of mainly sandy loam soils, including Alfisols, have a low profile water storage capacity, often aggravated by their shallowness. Therefore, they generally lack sufficient buffer capacity to transfer water from a rainy period to a subsequent period of insufficient rainfall. Thereby, red soils have a poorly developed structure and the aggregates of the topsoil are easily dispersed upon wetting, resulting in a surface sealing. Raindrop impact causes a further compaction of the top layer. Under these adverse conditions, the infiltrability of the red soils will be strongly reduced and frequently surface runoff occurs well before the profile is saturated, even early in the rainy season.Production levels under such water-limited conditions are bound to be low. Yet, millions of people in the semi-arid tropics depend on them. In tropical India alone, the area of red soils that is yearly cropped can be estimated at as much as 50 million hectares. Common food-crops are mostly local varieties of sorghum, millets and grams, with average yield levels well below 1 t/ha. Important cash crops include groundnut, castor and sesame, with similarly low yields. Expansion of agricultural fields, in the case of red soils mainly under the pressure of population growth has been bringing less suitable areas under permanent cultivation and worsening crop rotation over the last 50 years or so. This leads to a further impoverishment of the soils.Shortage of sufficient water at the right time has always been a problem the farmers in the drier regions of the world have had to face. Depending on the land conditions and climate, different systems have been developed in order to tackle this problem. Some techniques are briefly described (chapter 4). Unfortunately', most techniques are based on the availability of a high retention capacity of the profile to store water, which makes such system unsuitable for red soil areas.In national and international agricultural research, attention is in the first place focussed on the development and introduction of modern crop varieties in combination with the use of synthetic fertilizer. Suitable varieties are the ones that have a higher yield potential and relatively good properties in respect to drought resistance or - avoidance as well as a minimum susceptibility to pests and diseases. Additional attention is given to beneficial crop combinations in respect to efficient water and nutrient use.More than the traditional cultivars, improved varieties require uniformly good growth conditions for optimal production. Moreover, higher demands are set for accurate and timely soil- and crop management, including seed bed preparation, seeding, fertilizer placement and mechanical weed control. As the technology that is traditional for the rainfed areas of India can not fulfill all these requirements at the proper level. introduction of improved implements and land management appears necessary. In combination with this there is the assumption that observed problems on excessive runoff, local water stagnation and high erosion could be dealt with much better in a bedded field than in the traditionally flat cultivated fields.At ICRISAT (International Crops Research Institute for the Semi-Arid Tropics), Hyderabad, India, these assumptions have lead to the introduction on experimental scale of such field lay-outs together with bullock-drawn wheeled tool carriers. For the sandy Alfisols the system of ridges was abandoned soon after introduction, because they proved unstable and difficult to handle with most field operations. The system of a bed-and-furrow configuration, however, continued to be used and seemed workable in combination with the improved equipment. However, in contrast to its performance on Vertisols, the system when used on the Alfisols appeared to result in higher runoff and soil loss compared to flat cultivated fields.In this study for which experimental work was done at the ICRISAT research station, a number of observations are reported that helped to validate assumptions on the runoff characteristics of red soils and to understand the reasons for the differences between surface treatments in this respect. As the infiltrability of red soils is easily reduced to low values through surface sealing, the surface depression storage proves to become an important parameter that influences the cumulative infiltration, as it most effectively prolonges the time of residence of the water in the field and therewith the time available for infiltration.Micro-depression storage (or surface retention) is related to the surface roughness and can be appreciable directly after cultivation. Under the influence of (heavy) rain , however, a rapid and almost complete decline of it can be observed ( section 6.1.1.2 ), mainly due to the low stability of the top soil. Only shallow depressions will be left, which on top of a more or less crowned shaped bed have little or no storage capacity, while they do have at least some in a flat cultivated field.Mini-depressions, as formed by unintended marks and irregularities, are much more stable but have a low storage capacity. Mini-depressions could also be created purposely, for example by damming furrows at intervals, which is only feasible on bedded fields. Under the conditions of Hyderabad, they do not prove effective.Macro-depress ions, as far as they are formed by topografic undulations within the field, also pose a difference between flat cultivated and bedded fields, as in the latter the stagnation of the water is restricted to the furrows. This can be a major advantage of the use of beds, as prolonged stagnation of water, resulting from continuing rain, will adversely affect most crops in the waterlogged areas.Mainly by the differences in depression storage between flat and bedded fields, their runoff performance is also different; actual differences thereby depend on size and intensity of individual storms ( section 6.2.2. ).At the same time, approaches to reduce runoff and erosion from bedded fields were searched for. In this respect a much more intense system of primary tillage, as compared to the usual way of ploughing beds at ICRISAT, earlier proposed by Klay (1983) proved to increase infiltration ( section 6.1.1. ). A significant difference in bulk density of the top soil was measured even by the end of the growing season.The influence of the shape of the bed-and-furrow on runoff behaviour was observed and hydraulic roughness co-efficients of the furrows calculated ( section 6.2.3. ). Again, as with the difference between flat and bedded fields, the pros and cons of a certain shape and size of the furrow also depend on the expected storm sizes. For Hyderabad, however, preference goes to narrow furrows along with a level bed. This is also the shape that is easiest to handle with bullock-drawn implements.Observation on erosion and soil loss ( chapter 7 ) stressed the need to differentiate between the local loss of soil within a field and the ultimate sediment yield at a measuring point. The necessity to include the composition of transported material in comparison to that of in situ material is made clear and its difference expressed as "dispersion coefficient". Measurements on the texture of eroded material over the season, showed the occasionally high values of this dispersion co- efficient. The high contribution of suspended material, particularly for red soils, in total soil-loss was obvious from the experiments.Although a more intense system of tillage, both in respect to depth and frequency, might well be able to decrease runoff, the maximum storage capacity of red soil profiles may often become a limiting factor. Most red soils have a profile retention capacity below 150 mm of crop available water, frequently even below 100 mm. In many years, this will prove to be too low a reserve to adequately support a standing crop during the droughty periods that can be expected to occur in the semi- arid tropics. observations at ICRISAT are referred to ( section 8. 3. ), where small amounts of water, applied as supplementary irrigation during periods of stress, resulted in considerable yield increases. But small water gifts that supported the growth of an additional post-rainy season crop also proved to be very effective. As far as no other source of water is available but the local precipitation, water for supplementary irrigation has to be drawn from earlier rainfall excess that has lead to surface runoff and has been collected in (excavated) reservoirs. Chapter 8 describes two alternatives for such an approach. Firstly, a runoff collection and water re-utilization system could be based on the collection of all season's expected runoff leaving the choice open, depending on the season, to use this water to break dry spells or to support a subsequent crop, possibly on a reduced area. Such a system would be based on reservoirs, with a storage capacity of say 5,000 - 6,000 m 3 for a 5 ha area (100 - 120 mm on area basis). The second system would be based on a field-scale water collection. Here, the envisaged storage capacity would amount to a much lower value of, say, 40 mm on area basis, or 200 m 3 for a 0.5 ha field. in this latter approach collected runoff mainly serves as a source for supplementary irrigation during dry spells.A choice between the two systems is complicated and, among others, depends on local precipitation, soil depth, grown or envisaged crops and available technology. Yet, a number of small reservoirs might well have some distinct advantages over a single larger one. These relate to a higher water collection efficiency, increasing the probability of a filled reservoir at the time the water is needed and to the possibility for small farm units (0.5 ha) to use the water at the right moment, using simple (and cheap) means for water lifting and transport. The relatively higher seepage from small reservoirs, c.q. the relatively higher costs for lining them, might be made good by a higher frequency of use, as the reservoir will mostly be filled up again after water extraction.In watershed development in red soil areas in the semi-arid tropics attention is generally directed to both resource protection and increase of productivity. only the former could possibly be considered as a single objective. In the combined objective, the land users have to drasticly change their systems of farming, as traditional technology already uses the environment to its optimum. Introduction of modern crop varieties and fertilization, costly inputs, should go along with an optimum management of the land, the soil and the water. Watershed development in this context is only possible if farmers are able and willing to spend knowledge, labour, capital and co-operation at the required level.For reaching this goal, relevant groups of farmers should be organised to enable co-operation in necessary land consolidation and construction work. For longer term maintenance work and for the organisation of machine pooling etc., separate bodies are required.

Published
1985

424. Rainfed agriculture in a semi-arid tropical climate : aspects of land- and watermanagement for red soils in India

Author

Huibers, F.P., Landbouwhogeschool Wageningen, L. Horst, and W.H. van der Molen

Subjects
runoff farming, gewassen, no-tillage, soil water, tropische gronden, tropical soils, pampas, tropics, steppen, semi-aride klimaatzones, tropen, pampa's, Irrigation and Soil and Water Conservation, landbouw met waterafvoer, waterbehoefte, steppes, semiarid zones, regenwateropvang, india, water requirements, bodemwater, crops, cultuurmethoden zonder grondbewerking, subtropical soils, Tropische cultuurtechniek, cultivation, water harvesting, subtropische gronden, teelt
Abstract

Rainfed agriculture is defined as the production of field crops that completely depend on the local precipitation for their water supply. Although in the semi-arid tropics the mean annual precipitation might seem to be sufficient to grow (adapted) crops, its variability over the years and its erratic distribution over the season pose problems. During relatively dry periods, the crop might suffer from moisture stress, at other times excessive rainfall occurs, causing water logging and erosion. This creates specific problems for crop production. The red soils, as a general indication of a group of mainly sandy loam soils, including Alfisols, have a low profile water storage capacity, often aggravated by their shallowness. Therefore, they generally lack sufficient buffer capacity to transfer water from a rainy period to a subsequent period of insufficient rainfall. Thereby, red soils have a poorly developed structure and the aggregates of the topsoil are easily dispersed upon wetting, resulting in a surface sealing. Raindrop impact causes a further compaction of the top layer. Under these adverse conditions, the infiltrability of the red soils will be strongly reduced and frequently surface runoff occurs well before the profile is saturated, even early in the rainy season.Production levels under such water-limited conditions are bound to be low. Yet, millions of people in the semi-arid tropics depend on them. In tropical India alone, the area of red soils that is yearly cropped can be estimated at as much as 50 million hectares. Common food-crops are mostly local varieties of sorghum, millets and grams, with average yield levels well below 1 t/ha. Important cash crops include groundnut, castor and sesame, with similarly low yields. Expansion of agricultural fields, in the case of red soils mainly under the pressure of population growth has been bringing less suitable areas under permanent cultivation and worsening crop rotation over the last 50 years or so. This leads to a further impoverishment of the soils.Shortage of sufficient water at the right time has always been a problem the farmers in the drier regions of the world have had to face. Depending on the land conditions and climate, different systems have been developed in order to tackle this problem. Some techniques are briefly described (chapter 4). Unfortunately', most techniques are based on the availability of a high retention capacity of the profile to store water, which makes such system unsuitable for red soil areas.In national and international agricultural research, attention is in the first place focussed on the development and introduction of modern crop varieties in combination with the use of synthetic fertilizer. Suitable varieties are the ones that have a higher yield potential and relatively good properties in respect to drought resistance or - avoidance as well as a minimum susceptibility to pests and diseases. Additional attention is given to beneficial crop combinations in respect to efficient water and nutrient use.More than the traditional cultivars, improved varieties require uniformly good growth conditions for optimal production. Moreover, higher demands are set for accurate and timely soil- and crop management, including seed bed preparation, seeding, fertilizer placement and mechanical weed control. As the technology that is traditional for the rainfed areas of India can not fulfill all these requirements at the proper level. introduction of improved implements and land management appears necessary. In combination with this there is the assumption that observed problems on excessive runoff, local water stagnation and high erosion could be dealt with much better in a bedded field than in the traditionally flat cultivated fields.At ICRISAT (International Crops Research Institute for the Semi-Arid Tropics), Hyderabad, India, these assumptions have lead to the introduction on experimental scale of such field lay-outs together with bullock-drawn wheeled tool carriers. For the sandy Alfisols the system of ridges was abandoned soon after introduction, because they proved unstable and difficult to handle with most field operations. The system of a bed-and-furrow configuration, however, continued to be used and seemed workable in combination with the improved equipment. However, in contrast to its performance on Vertisols, the system when used on the Alfisols appeared to result in higher runoff and soil loss compared to flat cultivated fields.In this study for which experimental work was done at the ICRISAT research station, a number of observations are reported that helped to validate assumptions on the runoff characteristics of red soils and to understand the reasons for the differences between surface treatments in this respect. As the infiltrability of red soils is easily reduced to low values through surface sealing, the surface depression storage proves to become an important parameter that influences the cumulative infiltration, as it most effectively prolonges the time of residence of the water in the field and therewith the time available for infiltration.Micro-depression storage (or surface retention) is related to the surface roughness and can be appreciable directly after cultivation. Under the influence of (heavy) rain , however, a rapid and almost complete decline of it can be observed ( section 6.1.1.2 ), mainly due to the low stability of the top soil. Only shallow depressions will be left, which on top of a more or less crowned shaped bed have little or no storage capacity, while they do have at least some in a flat cultivated field.Mini-depressions, as formed by unintended marks and irregularities, are much more stable but have a low storage capacity. Mini-depressions could also be created purposely, for example by damming furrows at intervals, which is only feasible on bedded fields. Under the conditions of Hyderabad, they do not prove effective.Macro-depress ions, as far as they are formed by topografic undulations within the field, also pose a difference between flat cultivated and bedded fields, as in the latter the stagnation of the water is restricted to the furrows. This can be a major advantage of the use of beds, as prolonged stagnation of water, resulting from continuing rain, will adversely affect most crops in the waterlogged areas.Mainly by the differences in depression storage between flat and bedded fields, their runoff performance is also different; actual differences thereby depend on size and intensity of individual storms ( section 6.2.2. ).At the same time, approaches to reduce runoff and erosion from bedded fields were searched for. In this respect a much more intense system of primary tillage, as compared to the usual way of ploughing beds at ICRISAT, earlier proposed by Klay (1983) proved to increase infiltration ( section 6.1.1. ). A significant difference in bulk density of the top soil was measured even by the end of the growing season.The influence of the shape of the bed-and-furrow on runoff behaviour was observed and hydraulic roughness co-efficients of the furrows calculated ( section 6.2.3. ). Again, as with the difference between flat and bedded fields, the pros and cons of a certain shape and size of the furrow also depend on the expected storm sizes. For Hyderabad, however, preference goes to narrow furrows along with a level bed. This is also the shape that is easiest to handle with bullock-drawn implements.Observation on erosion and soil loss ( chapter 7 ) stressed the need to differentiate between the local loss of soil within a field and the ultimate sediment yield at a measuring point. The necessity to include the composition of transported material in comparison to that of in situ material is made clear and its difference expressed as "dispersion coefficient". Measurements on the texture of eroded material over the season, showed the occasionally high values of this dispersion co- efficient. The high contribution of suspended material, particularly for red soils, in total soil-loss was obvious from the experiments.Although a more intense system of tillage, both in respect to depth and frequency, might well be able to decrease runoff, the maximum storage capacity of red soil profiles may often become a limiting factor. Most red soils have a profile retention capacity below 150 mm of crop available water, frequently even below 100 mm. In many years, this will prove to be too low a reserve to adequately support a standing crop during the droughty periods that can be expected to occur in the semi- arid tropics. observations at ICRISAT are referred to ( section 8. 3. ), where small amounts of water, applied as supplementary irrigation during periods of stress, resulted in considerable yield increases. But small water gifts that supported the growth of an additional post-rainy season crop also proved to be very effective. As far as no other source of water is available but the local precipitation, water for supplementary irrigation has to be drawn from earlier rainfall excess that has lead to surface runoff and has been collected in (excavated) reservoirs. Chapter 8 describes two alternatives for such an approach. Firstly, a runoff collection and water re-utilization system could be based on the collection of all season's expected runoff leaving the choice open, depending on the season, to use this water to break dry spells or to support a subsequent crop, possibly on a reduced area. Such a system would be based on reservoirs, with a storage capacity of say 5,000 - 6,000 m 3 for a 5 ha area (100 - 120 mm on area basis). The second system would be based on a field-scale water collection. Here, the envisaged storage capacity would amount to a much lower value of, say, 40 mm on area basis, or 200 m 3 for a 0.5 ha field. in this latter approach collected runoff mainly serves as a source for supplementary irrigation during dry spells.A choice between the two systems is complicated and, among others, depends on local precipitation, soil depth, grown or envisaged crops and available technology. Yet, a number of small reservoirs might well have some distinct advantages over a single larger one. These relate to a higher water collection efficiency, increasing the probability of a filled reservoir at the time the water is needed and to the possibility for small farm units (0.5 ha) to use the water at the right moment, using simple (and cheap) means for water lifting and transport. The relatively higher seepage from small reservoirs, c.q. the relatively higher costs for lining them, might be made good by a higher frequency of use, as the reservoir will mostly be filled up again after water extraction.In watershed development in red soil areas in the semi-arid tropics attention is generally directed to both resource protection and increase of productivity. only the former could possibly be considered as a single objective. In the combined objective, the land users have to drasticly change their systems of farming, as traditional technology already uses the environment to its optimum. Introduction of modern crop varieties and fertilization, costly inputs, should go along with an optimum management of the land, the soil and the water. Watershed development in this context is only possible if farmers are able and willing to spend knowledge, labour, capital and co-operation at the required level.For reaching this goal, relevant groups of farmers should be organised to enable co-operation in necessary land consolidation and construction work. For longer term maintenance work and for the organisation of machine pooling etc., separate bodies are required.

Published
1985

425. Substituição da torta de algodão por feno de leguminosas em rações baseadas em restolho da cultura do milho para ovinos em confinamento

Author

OLIVEIRA, E. R. de, BARROS, N. N., ROBB, T. W., JOHNSON, W. L., PANT, K. P., EDERLON R. DE OLIVEIRA, CNPC, NELSON NOGUEIRA BARROS, CNPC, THOMAS W. ROOB, North Carolina State University, Raleigh, USA., WILLIAM L. JOHNSON, North Carolina State University, Raleigh, USA., and KANT PRASAD PANT, Consultor IICA / EMBRAPA-CNPC.

Subjects
Crop residues, Dry season, Restolho de cultura, Confinamento, Ruminant nutrition, Clitoria ternatea, Caatinga, Fedegoso, Animal nutrition, Forage plant, Feed crops, Torta de algodão, Feno, Ração, Planta forrageira, Leguminosa forrageira, Sheep, Ovino, Resíduo, Alimento para animal, Feed legumes, Legumes, Semiarid zones, Nutrição animal, Feed grasses, Cunhã, Browse plants, Brazil, Estação seca, Confinement
Abstract

Resumo: Dois experimentos usando ovinos deslanados testaram a substituiçao da torta de algodao por feno de Ieguminosas em rações corn restolho da cultura do milho. No primeiro experimento, foi usada uma raçao-base de 51% restolho do milho, 28% torta de algodao, 20% milho e 1% sal, na quaI a torta de algodao foi substituîda por 5%, 10%, e 15% de feno de mata-pasto (Cassia sericea), enquanto um Iote-testemunha era mantido em pastoreio. Os animais confinados ganharam 95, 106, 103 e 93 gramas/cabeça/dia (P > 0,05), para as rações com 0%, 5%, 10% e 15% de mata-pasto, respectivamente. Os animais em pastoreio perderam 11 gramas/cabeça/dia (P < 0,05). No segundo experimento, a torta de algodao foi parcialmente (50%) ou totalmente substituîda por fenos de mata-pasto ou cunha (Clitoria ternatea), enquanto os ovinos em pastoreio receberam suplementação de 200 gramas de milho/cabeça/dia. Com exceçao do tratamento onde a torta de algodao foi totalmente substituída por feno de mata-pasto, os outros tratamentos corn animais confinados apresentaram ganhos acima de 100 gramas/cabeça/dia, superiores (P < 0,01) aos dos animais em pastoreio, que ganharam 42 gramas. Os resultados indicam ser possível a substituiçao da torta de algodao por feno de mata-pasto em níveis de até 50%, podendo essa substituiçao ser total quando for utilizada a Ieguminosa cunha. [Substitution of legume hays for cottonseed cake in rations based on corn crop residues for sheep under confinement]. Abstract: Two experiments utilizing hairy sheep were carried out to test tio substitution of Iewrne hays for cottonseed eake li, rations based on com crop residues. In the first experiment, a basai ration of 51% corn crop residues, 28% cottonseedcake,20%corn and 1% salt, was used, in which the cottonseed calce was repIaced by 5%, 10%, and 15% of 7mata-pasto" (Caule sericea) hay, whiie a control group was kept under range conditions. The confined animais had gains of 95, 106.103 and 93 grams/head/day (P > 0.05) for tho rations with 0%, 5%, 10% and 15% of "mata-pasto", respective-ly. The grazing animais iost 11 grams/head/day , (P

Published
1986

426. Desertification in the Sahelian and Sudanian zones of West Africa

Author

Gorse, J. E., Steeds, D. R., and Sustainable Agriculture and Natural Resource Management (SANREM) Knowledgebase

Subjects
Livestock, Deserts, Resource management, Climate, Agriculture, Forests, Traditional, Man environment interactions, Ecosystem Farm/Enterprise Scale Field Scale, Education, Semiarid zones, Sustainability, Africa, Arid zones, Laws and regulations, World Bank, Soils, Rural development, Agrosylviculture, Agrosylvopastoral, Policies, Desertification
Abstract

Metadata only record Desertification is defined as the sustained decline of the biological productivity of arid and semi-arid land. It is the result of pressures both human (increased population) and climatic (variable rainfall and long-term changes in climate). Three traditional production systems exist in the SSZ: agrosylvicultural, agrosylvopastoral, and sylvopastoral. Development activities have been tried in the past in the agriculture, livestock and forestry sectors. Strategies for better resource management depend on the balance between the rural population and the carrying capacity of the land. Such strategies include increasing research on production systems, training staff and farmers, reducing the population through child spacing and resettlement, increasing the stock of fuelwood, reforming land laws, and providing incentives for increased agricultural and forestry production.

Published
1987

427. Rearing cycle and other reproductive parameters of the xerophitic mouse opossum Marmosa xerophila (Didelphimorphia: didelphidae) in the Peninsula of Paraguana, Venezuela

Author

Dirk Thielen, Cabello, Daniel R., Bianchi-Perez, Guillermo, and Ramoni-Perazzi, Paolo

Subjects
Semiarid Zones, Didelphidae, Reproduction, Marmosa xerophila, Venezuela
Abstract

Some reproductive parameters were measured in 60 adult females of Marmosa xerophila to infer the significance of some adaptations to a semi-arid ecosystem when compared to M. robinsoni, a filogenetically closely related species inhabiting more humid environments. The study was carried out in a tropical thorny woodland in the Peninsula of Paraguaná, Falcon State, Venezuela. Field data were collected by two methods: capture-mark-recapture and radioactive tagging. A reproductive peak occurred in June and July, during the dry season. Post-lactating females were detected from July to February. There was no reproductive activity from March to May. The rearing cycle lasted 60 days and the mean litter size was 7.9 young. The reproductive strategy of M. xerophila is similar to the rainforest species M. robinsoni, reflecting a great plasticity that allows Marmosa species to adapt successfully to different Neotropical ecosystems Algunos de los parámetros reproductivos fueron medidos en 60 hembras adultas de Marmosa xerophila para inferir el significado de algunas de sus adaptaciones a ecosistemas semiáridos cuando se comparan con aquéllas de M. robinsoni, una especie presente en sistemas más húmedos y a la que está estrechamente relacionada filogenéticamente. El estudio se llevó a cabo en un arbustal seco espinoso en la Península de Paraguaná, Estado Falcón, Venezuela. Los datos de campo se colectaron a través de dos métodos: captura-marcado-recaptura y marcado con radioisótopos. Un pico reproductivo se presentó en la estación seca, entre junio y julio. Las hembras con señales de haber destetado sus crías eran más evidentes entre julio y febrero. No se observó actividad reproductiva en las hembras entre marzo y mayo. El ciclo reproductivo duró 60 días y el tamaño promedio de la camada fue 7,9 crías. La estrategia reproductiva de M. xerophila es similar a la de M. robinsoni que habita selvas tropicales, lo que refleja una gran plasticidad que permite a estas especies adaptarse exitosamente a diferentes ecosistemas neotropicales. Foram medidos alguns parâmetros reprodutivos de 60 fêmeas adultas de M. xerophila para inferir sobre o quão significativas são algumas adaptações ao ecossistema semi-árido comparando-os com M. robinsoni. O estudo foi realizado em um bosque espinhoso tropical na Península de Paraguaná, Estado Falcon, Venezuela. Os dados de campo foram coletados usando-se dois métodos: captura-marcação-recaptura e uso de etiquetas radioativa. Um pico de reprodução ocorreu em junho e julho, durante a estação seca. Fêmeas pós-lactantes foram detectadas de julho a fevereiro. Não houve atividades reprodutivas de março a maio. O ciclo de criação dura 60 dias e o tamanho médio da ninhada foi de 7,9 jovems. A estratégia reprodutiva de M. xerophila é similar a de M. robinsoni de floresta tropical, refletindo uma grande plasticidade que permite às espécies do gênero se adaptarem com êxito em diferentes ecossistemas Neotropicais.

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