Herbaceous communities’ heterogeneity in the Kalahari sandy soils environment: A case study of Kweneng, Kgatleng Districts and Mahalapye Sub-District of Botswana

Paper Details

Research Paper 01/06/2021
Views (396) Download (123)
current_issue_feature_image
publication_file

Herbaceous communities’ heterogeneity in the Kalahari sandy soils environment: A case study of Kweneng, Kgatleng Districts and Mahalapye Sub-District of Botswana

Shimane W Makhabu, Koketso Tshireletso, Mpho R Setlalekgomo, Ednah Kgosiesele, Lawrence Akanyang, Boipuso Legwatagwata, Mackenzie Nsinamwa, Zibanani Seletlo, Sipho Majaga
J. Bio. Env. Sci.18( 6), 87-101, June 2021.
Certificate: JBES 2021 [Generate Certificate]

Abstract

Biotic and abiotic factors shape most vegetation communities’ structures and composition. Over the years, climatic conditions have been changing. Livestock and wild animal populations have also been dynamic in Botswana’s rangelands. Rainfall, temperatures and fire occurrences have also been fluctuating. All these factors affect the diversity and community patterns of vegetation. This study aimed at determining the diversity of vascular plants, how species are associated and distributed within the districts of Kgatleng, Kweneng and the sub-district of Mahalapye in Botswana. Data collection was carried out using line transects and plots measuring 20 m by 50 m. Determination of species identity, number and percentage cover in each plot was done. Soil samples were collected to analyse for pH, EC and particle size. From the data collected and remote sensing protocols, we generated diverse vegetation communities and vegetation maps. Results showed that good species for animal grazing are present in some areas whereas other areas are degraded. Cenchrus biflorus Roxb. and Pavetta harborii harmful species to the beef industry were noticed in Kweneng and Mahalapye areas. Bush encroaching species were present in the three districts. The area is being invaded by an exotic species, Verbesina encelioides which need to be controlled. Measures to reduce degradation and bush encroachment need to be put in place. Thus, the Kweneng district can be classified as being in moderate to good grazing condition. Kgatleng district and Mahalapye subdistrict can be classified as being in poor to moderate grazing conditions.

VIEWS 62

Chaneton EJ, Facelli JM. 1991. Disturbance effects on plant community diversity: Spatial scales and dominance hierarchies. Plant Ecology 93(2), 143-155.

Coates Palgrave KC. 2002. Trees of Southern Africa 3rd ed. Struik Publishers, South Africa.

Davies KF, Margules CR, Lawrence JF. 2004. A synergistic effect puts rare, specialised species at greater risk of extinction. Ecology 85, 265-271.

Dufrene M, Legendre P. 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological monographs 67, 345-366.

Dumbrell AJ, Clark EJ, Frost GA, Randell TE, Pitchford JW, Hill JK. 2008. Changes in species diversity following habitat disturbance are dependent on spatial scale: theoretical and empirical evidence. Journal of Applied Ecology 45(5), 1531-1539.

Ellis CE, Naicker D, Basson KM, Botha CJ, Meintjes RA, Schultz, RA. 2010. A fluorescent investigation of subcellular damage in H9c2 cells caused by pavetamine, a novel polyamine. Toxicology in Vitro 24, 1258-1265.

Falk KJ, Burke DM, Elliott KA, Holmes SB. 2008. Effects of single-tree and group selection harvesting on the diversity and abundance of spring forest herbs in deciduous forests in south western Ontario. Forest Ecology and Management 255, 2486-2494.

Field D. 1976. A Handbook of Common Grasses in Botswana. Ministry of Agriculture, Gaborone, Botswana.

Hamer KC, Hill JK. 2000. Scale-dependent effects of habitat disturbance on species richness in tropical forests. Conservation Biology 14(5), 1435-1440.

Heath A, Heath R. 2009. Field guide to the plants of Northern Botswana including the Okavango. KEW publishing, UK.

IBM Corp. 2015. IBM SPSS Statistics for Windows, Version 23.0. IBM Corp, Armonk, NY.

Leitão RP, Zuanon J, Villéger S, Williams SE, Baraloto C, Fortunel C, Mendonc¸a FP, Mouillot D. 2016. Rare species contribute disproportionately to the functional structure of species assemblages. Proc. R. Soc. B 283, 20160084. http://dx.doi.org/10.1098/rspb.2016.0084

Lori T, Ditlhogo MK, Setshogo MP, Koosaletse-Mswela P. 2019. Classification, description and mapping of the vegetation in Khutse Game Reserve, Botswana. Botswana Journal of Agriculture and Applied Science 13(2), 8-23.

Makhabu SW, Marotsi B. 2012. Changes in herbaceous species composition in the absence of disturbance in a Cenchrus biflorus Roxb. Invaded area in central Kalahari Game Reserve, Botswana. International Journal of Ecology 2012, 6 pages. http://www.hindawi.com/journals/ijeco/2012/174813/

Makhabu SW. 2005. Interactions between woody plants, elephants and other browsers in the Chobe Riverfront, Botswana. PhD Thesis, Norwegian University of Science and Technology, Trondheim, Norway. https://ntnuopen.ntnu.no/ntnu-xmlui/ bitstream/handle/11250/244593/124364_FULLTEXT01.pdf?sequence=1&isAllowed=y

Makhabu SW. 2011. Advantages and disadvantages of various encroachment methods: A Riview. UNISWA Journal of Agriculture 15, 117 – 124.

McCune B, Grace JB, Urban DL. 2002. Analysis of ecological communities. MiM Software design, Gleneden Beach, OR, USA.

Moleele N, Perkins J. 1998. Encroaching woody plants species and boreholes: is cattle density the main driving factor in the Olifants Drift communal grazing lands, Botswana? Journal of Arid Environments 40, 425 – 253

Moleele NM. 2002. Encroacher woody plant browse as feed for cattle. Cattle diet composition for three seasons at Olifants Drift, southeast Botswana. Journal of Arid Environments 40, 255 – 268.

Mphinyane WN, Tacheba G, Makore J. 2015. Seasonal diet preference of cattle, sheep and goats grazing on the communal grazing rangeland in the Central District of Botswana. African Journal of Agricultural Research 10, 2791-2803.

PIER. 2013. Pacific Islands Ecosystems at Risk. Honolulu, Hawaii, USA: HEAR, University of Hawaii. http://www.hear.org/pier/index.html.

Purvis A, Agapow PM, Gittleman JC, Mace GM. 2000. Non-random extinction and the loss of evolutionary history. Science 288, 328-330.

Roberts MR, Gilliam FS. 1995. Patterns and mechanisms of plant diversity in forested ecosystems: Implications for forest management. Ecological Applications 5, 969-977.

Roodt V. 1998. Trees and Shrubs of the Okavango Delta. Shell oil Botswana, Gaborone, Botswana.

Roodt V. 2011. Wild flowers, waterplants and grasses of the Okavango delta and Kalahari. Veronica Roodt publications, Hartebeespoort.

Sekercioglu CH, Schneider SH, Fay JP, Loarie SR. 2008. Climate change, elevational range shifts, and bird extinctions. Conserv. Biol 22, 140-150. (doi:10.1111/j.1523-1739.2007.00852.x).

Shameem SA, Kangroo IN, Bhat GA. 2011. Comparative assessment of edaphic features and herbaceous diversity in lower Dachigam national park, Kashmir, Himalaya. Journal of Ecology and the Natural Environment 3(6), 196-204.

Shameem SA, Mushtaq H, Wani AA, Ahmad N, Hai A. 2017. Phytodiversity of herbaceous vegetation in disturbed and undisturbed forest ecosystems of Pahalgam Valley, Kashmir Himalaya, India. British Journal of Environment & Climate Change 7, 148-167.

Srivastava DS, Vellend M. 2005. Biodiversity-ecosystem function research: Is it relevant to conservation? Annual Review of Ecology, Evolution and Systematics 36, 267-294.

Tshireletso K, Makhabu SW, Nsinamwa M, Kgosiesele E, Setlalekgomo MR, Seletlo Z, Majaga S, Legwatagwata B. 2018. Diversity patterns of woody vegetation of Kgatleng District, Botswana. In: Climate change and adaptive land management in southern Africa – assessments, changes, challenges, and solutions (ed. by Revermann, R., Krewenka, K.M., Schmiedel, U.,Olwoch, J.M., Helmschrot, J. & Jürgens, N.), pp. 416-423, Biodiversity & Ecology 6, Klaus Hess Publishers, Göttingen & Windhoek. doi:10.7809/b-e.00353.

Van Oudtshoorn F. 20144. Guide to Grasses of Southern Africa, Briza Publications, Pretoria, South Africa, 4th edition.

Verstraete B, Van Elst D, Steyn H, Van Wyk B, Lemaire B, Smets E, Dessein S. 2011. Endophytic bacteria in toxic South African plants: identification, phylogeny and possible involvement in gousikte. PLoS One 6(4), 1-13. (doi: 10.1371/journal. pone.0019265).

Walker BH, Ludwig D, Holling CS, Peterman RM. 1981. Stability of semi-arid savannah grazing systems. Journal of Ecology 69, 473 – 498.

Walter H. 1971. Ecology of Tropical and Subtropical vegetation. Oliver & Boyd, Edinburgh.

Wiegand K, Saltz D, Ward D. 2006. A patch-dynamics approach to savannah dynamics and woody plant encroachment – Insights from an arid savanna. Perspectives in Plant Ecology, Evolution and Systematics 7, 229 – 242.