1 / 24

Goats and Soil Erosion: The Evidence

Goats and Soil Erosion: The Evidence. Kris Dixon MSc World Animal Production Module 556: Land Husbandry in Drought Prone Areas. The Domestic Goat ~ An Introduction. Genus Capra , main species Capra hircus.

bradley-jarvis
Download Presentation

Goats and Soil Erosion: The Evidence

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Goats and Soil Erosion: The Evidence Kris Dixon MSc World Animal Production Module 556: Land Husbandry in Drought Prone Areas

  2. The Domestic Goat ~ An Introduction • Genus Capra, main species Capra hircus. • Domestication occurred 8000 years ago around the Nile, Euphrates, Tigris and Indus rivers. • Human migration led to the spread of the domesticated goat worldwide. • Goats are hardy and have adapted to a wide range of climatic and ecological conditions. • Goat populations have been growing at a faster rate than other ruminants. (Source: Steele, 1996.)

  3. The Domestic Goat ~ An Introduction • The world population is approximately 639 million. • 41% of the total goat population is in Africa, 32% on the Indian sub-continent. • Goats are cheap to purchase and are popular with poor farmers, as ownership of several goats is less risky than owning one or two cattle. • They are able to survive in conditions that sheep and cattle could not, as they can utilise poor quality forage, and are more tolerant of water scarcity.

  4. Physical Characteristics • The goat is a small ruminant, weight varies between breeds and between bucks and does. Large tropical breeds may weigh up to 60kg, small dwarf breeds 25kg. • Goats have a rapid reproduction rate, in good conditions females can produce their first kids at 15 - 18 months, and thereafter every 8 months. Multiple births are common. • The structure of the digestive system, and rate of passage allow goats to digest poorer quality forage than sheep or cattle. • Goats are able to extract the majority of the water content of feeds, increasing their tolerance to drought.

  5. Comparisons with Other Ruminants

  6. Comparisons with Other Ruminants

  7. Comparisons with Other Ruminants • Goats prefer shoots and leaves to stems and a variety of available vegetation. • When first turned out in the morning, goats will graze unselectively, but will become more selective during the day. • Goats scatter and graze and browse individually unlike sheep which graze in groups. • They can stand on their hind legs and climb some trees, reaching vegetation 1.5 – 2 metres from the ground. • Goats favour grasses and legumes in rainy seasons, and trees and shrubs in the dry season. • Stall fed goats may spoil and refuse a lot of the forage provided if not carefully managed.

  8. Comparisons with Other Ruminants • Cattle have a tendency to create tracks across pasture, from which the vegetation is removed, and on slopes, erosion of these tracks may lead to the formation of gullies. • Sheep in particular, pull up whole plants.

  9. Impacts of Grazing and Browsing • Impacts on vegetation • Plants are cut and bruised by trampling. • Plants covered by disturbed soil and dung. • Under heavy grazing perennial grasses often produce tillers close to the surface, increasing vegetative cover. • Annual grasses will not fully develop and reproduce if heavily grazed during the growing season. The persistence of this situation can lead to complete loss of cover.

  10. Impacts of Grazing and Browsing • Where grasses form tufts, the soil between the tufts may become exposed as the younger vegetation is grazed. Broadleaved plants and shrubs may germinate in these areas, changing pasture composition. • Consumption of sprouts and seedlings threatens natural regeneration. • Heavy grazing creates selection pressure favouring the growth of unpalatable species. • Plants are weakened and will die from excessive grazing. • Soil compaction impedes rooting.

  11. Impacts of Grazing and Browsing • Heavy grazing in wetter conditions leads to lower and spreading vegetation, providing continuous surface cover. • Grazing prevents litter accumulation which can impede grass re-growth and germination. • Grazing delays completion of the reproductive cycle of grasses, maintaining the nutritional value of the plants.

  12. Approximate Static Loads Exerted by Stationary Machinery and Animals (Source: Heady & Dennis Child, 1994, p64)

  13. Load Bearing Capacities of Soils (Source: Heady & Dennis Child, 1994, p64)

  14. Effects of Grazing on Soils • Experiments have shown thatexcessive grazing in semi arid areas has a variety of impacts on soils. • Reduction in depth of topsoil mainly due to compression by hooves. • Higher bulk density in top cm of profile of grazed land. • Lower total porosity due to the collapse of macropores and large mesopores. • Increased mechanical impedance of top 10cm. • Lower quantity and density of roots at top of profile. (Argentina, cattle grazing. Villamil et al, 2001)

  15. Effects of Grazing on Soils • Decrease in water retention capacity. • Decrease in carbon content. • Development of a “highly water repellent microstructure” • Run off from bare ground, wind erosion and gully erosion on slopes. (Ecuador, intensive sheep grazing. Podwojewski et al, 2002)

  16. Experimental Results • On a five year experimental plot in Tanzania grazed with goats mature trees and shrubs survived and there was no further encroachment. • Attempts in Namibia to clear shrubs from cattle pasture using goats failed to achieve this aim though further encroachment was halted. • Regeneration of trees, shrubs and vegetation, integrated with goat and cattle production has been successful in Bali. (Source: LEAD, 1999)

  17. Feral Goats • Feral goats are considered a significant problem in several countries, particularly where groups are isolated in fragile environments. • There are several historical examples of habitat destruction resulting from releases of goats. • Eg, East Africa, Cyprus, southern Italy, St Helena, Ethiopia and Israel.

  18. Shrub Encroachment and Soil Erosion • Soil erosion has been linked with shrub encroachment. • Related to bare soil patches between shrubs. • Bulk density found to be higher between shrubs in shrub – steppe environment, and soil organic matter and porosity were lower than in shrub – grass or grass –steppe regions. • Sediment production from shrub – steppe also found to be higher. • Litter removal by run-off implicated as a mechanism whereby shrub – grass becomes shrub – steppe. (Patagonia, Parizek et al 2002)

  19. Use of Goats in Conservation • In several countries goats are now being used to halt soil erosion resulting from shrub encroachment. • In California goats are being recommended as a tool to aid in the creation and maintenance of firebreaks. • Goats are also being used to combat invasive exotic plant species, such as Kudzu in the American mid-west.

  20. Socio-economic Considerations • Age and gender of herder has a large impact on grazing patterns: time spent at locations, distance travelled etc. • Goats are cheap to buy and keep and hence have a major role in the livelihoods of poor households • Goats tend to be owned by poorer households, who have little impact on policy formation and implementation. • Goats have low status in many cultures, unlike cattle, and are regarded as “a traditional, old technology”

  21. Conclusions • Human activities, for example deforestation, cultivation of marginal lands and grazing by large ruminants are significant factors in the process of degradation. • As a result of their adaptability to inhospitable conditions, goats tend to be the last animals found on a degraded site. • In such circumstances evidence indicates that they may impede the recovery of such areas if their grazing and browsing pressure is excessive. • In other circumstances, carefully managed, goats may have a role in rehabilitation.

  22. Conclusions • Several authors have concluded that major cause of soil erosion is removal of grass cover, for which cattle are implicated, rather than the browsing of trees and shrubs. • The creature most responsible for soil erosion is man. • The key factor control of soil erosion in the future is human management of grazing. • Goats have a critical role in the nutrition and livelihood security of poor households. Future grazing policy needs to recognise the importance of goats in poverty alleviation.

  23. References • Heady,H.F. and Dennis Child, R. (1994). Rangeland Ecology and Management. Westview Press. • Parizek, B. Rostagno, C.M, and Sottini, R. (2002) Soil Erosion as affected by Shrub Encroachment in North-eastern Patagonia. Journal of Range Management, Vol. 55, No.1, January 2002. • Podwojewski, P, Poulenard, J. Zambrana, T and Hofstede, R. (2002) Overgrazing effects on vegetation cover amd properties of volcanic ash soil in the paramo of Llangahua and La Esperanza (Tingurahua, Ecuador). Soil Use and Management. Vol. 18 No.1 March 2002. • Peacock,C. (1996). Improving Goat Production in the Tropics. A Manual for Development Workers. Oxfam, Farm Africa.

  24. References • Steele, M. (1996). Goats. Tropical Agriculturalist Series, CTA Macmillan • Villamil, M.B., Amiotti, N.B. and Peinemann, N. Soil degredation related to overgrazing in the semi-arid southern CadenaL area of Argentina. Soil Science 2001; 166:441-452.

More Related