Rangeland Condition and Herbage Utilization by Herbivores of the Kafue Flats North Bank: A Historical Perspective before the Construction of the Itezhi-Tezhi Dam, Zambia
This
study was carried out in Blue Lagoon National Park and the North Bank portion
of the Kafue Flats Game Management Area along the Kafue River in Zambia. The
aim of the study was to determine rangeland condition and utilization by
wildlife as well as livestock grazing in Kafue Flats, to establish the baseline
data for monitoring after the construction of the Itezhi-Tezhi dam.? Line intercept method and enclosure plots
were used to sample in all recognized vegetation types and basal cover and
frequency measurements were taken using line intercept method while enclosure
plots were used to determine rangeland utilization. Data obtained from records
showed that the area had annual mean rainfall of 535 mm at Itezhi-Tezhi, but
the lowest rainfall recorded was 214 mm in the 1978-1979 rainy season and the highest was 1, 184 mm in the 1975-1976 season. With regard to range condition, bare ground was highest in
the Termitaria vegetation at Nakenda-Critchley (62%), Bowa (57.6%) and Muwezwa
(48.45%) while basal cover was relatively high in the flood plain at Namunyona
(47.8%). Litter had an almost even distribution in all vegetation types and
percent standing crop biomass was relatively high in all sample plots.
Rangeland utilization was relatively high around Nakenda-Chitanda (43.54%) in
the flood plain and Bowa (31.42%) in the Termitaria vegetation. It was
concluded that Termitaria vegetation was largely at high risk of degradation
due to overgrazing. While the impact of dams, environmental flows and flood
pulse are discussed, detailed research and monitoring should be introduced in
addition to the promotion of management of pastures in this rangeland.
References
[1]
Chabwela, H.N. (1992) The Ecology and Resource Use of the Bangweulu Basin and the Kafue Flats. In: Jeffery, R.C.V., Chabwela, H.N., Howard, G. and Dugan, P.J., Eds., Managing the Wetlands of Kafue Flats and Bangweulu Bassin, IUCN, Gland, 11-24.
[2]
Godet, F. and Pfister, S. (2007) Case Study on the Itezhi-tezhi and the Kafue Gorge Dam: The Science and Politics of International Water Management.
[3]
Drjver, C.A. and Marchand, M. (1985) Taming the Floods: Environmental Aspects of Plan Development in Africa. CES State University of Leiden, Leiden.
[4]
Joyce, C.B., Simpson, M. and Casanova, M. (2016) Future Wet Grasslands: Ecological Implications of Climate Change. Ecosystem Health and Sustainability, 2, e01240. https://doi.org/10.1002/ehs2.1240
[5]
Gordon, E. and Meentemeyer, R.K. (2006) Effects of Dam Operation and Land Use on Stream Channel Morphology and Riparian Vegetation. Geomorphology, 82, 412-429. http://www.elsevier.com/locate/geomorph https://doi.org/10.1016/j.geomorph.2006.06.001
[6]
Cowardin, L.M., Carter, V., Golet, F.C. and LaRoe, E.T. (1979) Classification of Wetlands and Deep-Water Habitats of the United States. U.S. Fish and Wildlife Service, FWS/OBS-79/31, Washington DC.
[7]
UNFAO (1968) Wildlife, Fisheries and Livestock Production. Multipurpose Survey of the Kafue River Basin, Zambia. Vol. 5, UNFAO, Rome, 94 p.
[8]
McCartney, M.P., Sullivan, C. and Acreman, M.C. (2001) Ecosystem Impacts of Large Dams, Background Paper Nr. 2 Prepared for IUCN/UNEP/WCD. International Union for Conservation of Nature and Natural Resources and the United Nations Environmental Programme.
[9]
Richter, B.D., Postel, S., Revenga, C., Scudder, T., Lehner, B. and Churchill, A. (2010) The Downstream Human Consequences of Dams. Water Alternatives, 3, 14-42. http://www.water-alternatives.org
[10]
Wildi, W. (2010) Environmental Hazards of Dams and Reservoirs. NEAR Curriculum in Natural Environmental Science. Terre et Environment, 88, 187-197.
[11]
UNFAO (1968) Soil Surveys. Multipurpose Survey of the Kafue River Basin, Zambia. Vol. 2, UNFAO, Rome, 309 p.
[12]
UNFAO (1968) Climatology and Hydrology Multipurpose Survey of the Kafue River Basin, Zambia. Vol. 3, UNFAO, Rome, 46 p.
[13]
Chabwela, H.N. and Siwela, A. (1986) The Vegetative Structure of the Kafue Flats, North Bank, after the Construction of the Dams. In: England EWRS/AAB Symposium on Aquatic Weeds, Loughborough University, Loughborough, 61-72.
[14]
Ellenbroek, G.A. (1987) Ecology and Productivity of an Africa Wetland System. In: The Kafue Flats, Zambia, Dr. W. Junk Publishers, Boston, 266 p. https://doi.org/10.1007/978-94-009-4051-2
[15]
Chabwela, H.N. and Mumba, W. (1998) Integrating Water Conservation and Population Strategies on the Kafue Flats. In: de Shebinin, A. and Dompka, V., Eds., Water & Population Dynamics: Case Studies and Policy Implications, American Association for Advancement of Science, Washington DC, 25-48.
[16]
Hedberg, O. (1971) Kafue River Hydroelectric Power Development Stage II. SWECO, Lusaka.
[17]
DHV Consulting Engineers (1979) Kafue Flats Hydrological Studies. Final Report, DHV Consulting Engineers, Amersfoort, 198 p.
[18]
ZACPLAN (1994) Water Resources Assessment Study: Appendices. Zambezi River System Action Plan. ZACPRO 6, ELMS/DANIDA.
[19]
Trapnell, C.G. (1959) Ecological Results of Woodland Burning Experiments in Northern Rhodesian. Journal of Ecology, 47, 129-168.
[20]
Thompson, K. (1985) Emergent Plants of Permanent and Seasonally-Flooded Wetlands. In: Denny, P., Ed., The Ecology and Management of African Wetland Vegetation. A Botanic Account of African Swamps and Water Bodies, Dr. W. Junk Publishers, Boston, 1-18.
[21]
Gaudet, J.J. (1992) Structure and Function of African Floodplains. Journal of the East Africa Natural History Society and National Museum, 82, 1-32.
[22]
Fynn, R.W.S., Murray-Hudson, M., Dhliwayo, M. and Scholte, P. (2015) African Wetlands and Their Seasonal Use by Wild and Domestic Herbivores. Wetlands Ecology Management, 23, 559-581. https://doi.org/10.1007/s11273-015-9430-6
[23]
Chomba, C., Nyirenda, V., Shanungu, G., Simukonda, C., Nyirenda, M.A. and Chaka, K. (2015) An Updated Population Status of the Endemic Kafue lechwe (Kobus leche kafuensis) on the Kafue Flats, Zambia, for the Period 1931-2015 Global. Journal of Biology, Agriculture, and Health Sciences, 4, 154-164.
[24]
Cummings, J. and Smith, D. (2000) The Line-Intercept Method: A Tool for Introductory Plant Ecology Laboratories. In: Karcher, S.J., Ed., Tested Studies for Laboratory Teaching, Clemson University, Clemson, Vol. 22, 234-246.
[25]
Holechek, J.L., de Gomes, H. and Gait, G. (1998) Grazing Surveys: Problems, Experiences, and Ideas. Rangelands, 20, 9-11.
[26]
Salo, E.D., Higgins, K.F., Patton, B.D., Bakker, K., Barker, K., William, T., Kreft, B. and Paul, E. (2004) Grazing Intensity Effects on Vegetation, Livestock and Non-Game Birds in North Dakota Mixed-Grass Prairie. Proceedings of the North American Prairie Conferences, Madison, 8-12 August 2004, Paper 88. http://digitalcommons.unl.edu/napcproceedings/88
[27]
Pellant, M., Shaver, P., Pyke, D.A. and Herrick, J.E. (2005) Interpreting Indicators of Rangeland Health, Version 4. Technical Reference 1734-6, U.S. Department of the Interior, Bureau of Land Management, National Science and Technology Center, Denver, 122 p.
[28]
Herrick, J.E., Van Zee, J.W., Havstad, K.M., Burkett, L.M. and Whitford, W.G. (2005) Monitoring Manual for Grassland, Shrubland and Savanna Ecosystems Volume I: Quick Start USDA-ARS Jornada Experimental Range.
[29]
Smith, L., Ruyle, G., Maynard, J., Barker, S., Meyer, W., Stewart, D., Coulloudon, B., Williams, S. and Dyess, J. (2005) Principles of Obtaining and Interpreting Utilization Data on Rangelands. College of Agriculture and Life Sciences, Arizona Cooperative Tension, The University of Arizona, Tucson.
[30]
Bureau of Land Management. Interagency Technical Reference (1996) Utilization Studies and Residual Measurements. Technical Reference 1734-3 Copies Available from Bureau of Land Management National Business Center, Denver.
[31]
Sheley, R.L., James, J.J., Vasquez, E.A. and Svejcar, T.J. (2011) Using Rangeland Health Assessment to Inform Successional Management. Invasive Plant Science and Management, 4, 356-366. https://doi.org/10.1614/IPSM-D-10-00087.1
[32]
Mitchell, J.E. (2010) Criteria and Indicators of Sustainable Rangeland Management. University of Wyoming, Laramie, Extension Publication No. SM-56, 227 p.
[33]
Krausman, P.R.D., Naugle, D.E., Frisina, M.R., Northrup, R., Bleich, V.C., Block, W.M., Wallace, M.C., Wright, J.D. and Paul, R. (2009) Livestock Grazing, Wildlife Habitat, and Rangeland Values. Society for Range Management.
[34]
Morris, K. and Reich, P. (2013) Understanding the Relationship between Livestock Grazing and Wetland Condition. Arthur Rylah Institute for Environmental Research Technical Report Series No. 252, Department of Environment and Primary Industry, Heidelberg, Victoria 253.
[35]
USDA (2016) Grazing Management and Soil Health Keys to Better Soil, Plant, Animal, and Financial Health. Natural Resources Conservation Service.
[36]
SANBI (2013) Grasslands Ecosystem Guidelines: Landscape Interpretation for Planners and Managers. South African National Biodiversity Institute, Pretoria, 139 p.
[37]
Lubinski, K. (1998) Floodplain River Ecology and the Concept of River Ecological Health. Floodplain River Ecology. Ecological Status and Trends of the UMRS Division of Applied River Sciences, USGS Environmental Management Technical Center, Onalaska.
[38]
Braatne, J.H., Rood, S.B., Goater, L.A. and Blair, C. (2008) Analyzing the Impacts of Dams on Riparian Ecosystems: A Review of Research Strategies and Their Relevance to the Snake River through Hells Canyon. Environmental Management, 41, 267-281. https://doi.org/10.1007/s00267-007-9048-4
[39]
U.S. EPA (2002) Methods for Evaluating Wetland Condition, Using Vegetation to Assess Environmental Conditions in Wetlands. Office of Water, U.S. Environmental Protection Agency, Washington DC, EPA-822-R-02-020.
[40]
Acreman, M.C., Farquharson, F.A.K., McCartney, M.P., Sullivan, C., Campbell, K., Hodgson, N., Morton, H.J., Smith, D., Birley, M., Knott, D., Lazenby, J., Wingfield, E.B. and Barbier, E.B. (2000) Managed Flood Releases from Reservoirs: Issues and Guidance. Report to DFID and the World Commission on Dams, Centre for Ecology and Hydrology, Wallingford.
[41]
Mumeka, A. (1986) Effect of Deforestation and Subsistence Agriculture on Runoff of the Kafue River Headwaters, Zambia. Hydrological Sciences Journal, 31, 543-554. https://doi.org/10.1080/02626668609491073
[42]
Chabwela, H., Chomba, C. and Thole, L. (2017) The Habitat Structure of Lukanga Ramsar Site in Central Zambia: An Understanding of Wetland Ecological Condition. Open Journal of Ecology, 7, 406-432. http://www.scirp.org/journal/oje https://doi.org/10.4236/oje.2017.76029
[43]
Faber-Langendoen, D., Rocchio, J., Thomas, S., Kost, M., Hedge, C., Nichols, B., Walz, K., Kittel, G., Menard, S. and Muldavin, E. (2012) Assessment of Wetland Ecosystem Condition across Landscape Regions: A Multi-Metric Approach. Part B. Ecological Integrity Assessment Protocols for Rapid Field Methods (L2). U.S. Environmental Protection Agency Office of Research and Development, Washington DC, 111 p.
[44]
Alldredgea, B. and Moore, G. (2012) Assessment of Riparian Vegetation Sensitivity to River Hydrology Downstream of a Major Texas Dam. River Research and Applications, 30, 230-244.
[45]
Allington, D.A. and Winemiller, K.O. (2006) Habitat Affinity, the Seasonal Flood Pulse, and Community Assembly in the Littoral Zone of a Neotropical Floodplain River. Journal of North American Benthological Society, 25, 126-141. https://doi.org/10.1899/0887-3593(2006)25[126:HATSFP]2.0.CO;2
[46]
Drinkard, M.K., Kershner, M.W., Romito, A., Nieset, J. and de Szalay, F.A. (2011) Responses of Plants and Invertebrate Assemblages to Water-Level Fluctuation in Headwater Wetlands. Journal of the North American Benthological Society, 30, 981-996.
[47]
Junk, W., Bayley, P.B. and Sparks, R.E. (1989) The Flood Pulse Concept in River-Floodplain Systems. Canadian Journal of Fisheries and Aquatic Sciences, 106, 110-127. https://www.researchgate.net/publication/256981220
[48]
Zalewski, M. (2006) Flood Pulses and River Ecosystem Robustness. In: Tchiguirinskaia, I., Thein, K.N.N. and Hubert, P., Eds., Frontiers in Flood Research, Kovacs Colloquium, UNESCO, Paris, 43.
[49]
Rebelo, L.M., Senay, G.B. and McCartney, M.P. (2010) Flood Pulsing in the Sudd Wetland: Analysis of Seasonal Variations in Inundation and Evaporation in South Sudan. Earth Interactions, 16, 1-19. https://doi.org/10.1175/2011EI382.1
[50]
Arias, M.E., Cochrane, T.A., Norton, D., Killeen, T.J. and Kho, P. (2013) The Flood Pulse as the Underlying Driver of Vegetation in the Largest Wetland and Fishery of the Mekong Basin. AMBIO, 42, 864-876. https://doi.org/10.1007/s13280-013-0424-4
[51]
Benke, A.C., Chaubey, I., Ward, G.M. and Dunn, E.L. (2000) Flood Pulse Dynamics of an Unregulated River Floodplain in the Southeastern U.S. Coastal Plain. Ecology, 81, 2730-2741. https://doi.org/10.1890/0012-9658(2000)081[2730:FPDOAU]2.0.CO;2
[52]
Lugo, A.E. (1995) Fire and Wetland Management. In: Cerulean, S.I. and Engstrom, R.T., Eds., Fire in Wetlands: A Management Perspective, No. 19, Tall Timbers Research Station, Tallahassee, 1-9.
[53]
Robertson, M.M. (1997) Prescribed Burning as a Management and Restoration Tool in Wetlands of the Upper Midwest. Student on Line Journal, 2, 1-6.
[54]
Mapiye, M., Mwale, N. and Chikumba, N. (2008) Fire as a Rangeland Management Tool in the Savannas of Southern Africa: A Review. Tropical and Subtropical Agroecosystems, 8, 115-124.
[55]
Kotze, D.C. (2013) The Effects of Fire on Wetland Structure and Functioning. African Journal of Aquatic Science, 38, 237-247. https://doi.org/10.2989/16085914.2013.828008
[56]
Trollope, W.S.W. and Trollope, A.L. (2004) Prescribed Burning in African Grasslands and Savannas for Wildlife Management Arid Lands Newsletter.
[57]
Bixby, R.J., Cooper, S., Gresswell, R.E., Clifford, L.E.B., Dahm, N. and Dwire, K.A. (2015) Fire Effects on Aquatic Ecosystems: An Assessment of the Current State of the Science. Freshwater Science, 34, 1340-1350. https://doi.org/10.1086/684073
