The Relationship between the Edge Density of the Forest Fragments and the Tree Species Richness in the Detached Fragments of Kakamega Forest.
DOI:
https://doi.org/10.47941/ijhss.1746Keywords:
Fragmentation, Edge Density, Fragments, Tree Species Richness, Tree Species Relative AbundanceAbstract
Purpose: The theoretical approach guiding this study was based on the Island Biogeography Theory. The purpose of this study was to assess the influence of the edge density of the forest fragments on tree species richness.
Methodology: The study adopted a cross-sectional correlational research design. Proportionate random sampling was used. A sample of 30 plots each measuring 2m by 2m was established randomly in the fragments (0-200m from the edge towards the interior);Malava: Kisere: Ikuywa in that order for field sampling and measurements. Data was collected using tools such as measuring tapes,metre rule,GPS 64s Garmain and suunto inclinometer. A total of 39 species of trees were recorded from the three fragments with Funtumia africana being recorded as the most abundant species.
Findings: The findings show 83%, 85%, and 92% variation of tree species richness in. Malava (r2 = 0.83), Kisere (r2 = 0.85) and Ikuywa (r2 = 0.92) in that order can be explained by the edge density of the fragments. The edge density also explained 87%, 94% and 94% variation of tree species relative abundance in Malava (r2 = 0.87), Kisere (r2 = 0.94) and Ikuywa (r2 = 0.94) in that order.
Unique Contributor to Theory, Policy and Practice: It was concluded that tree species richness and tree species abundance in the detached portions of Kakamega forest were dominantly influenced by forest fragment total edge length and fragment edge density. For us to conserve more tree species we recommend maintenance of the total edge length of the fragments above 15km with edge density (3.413.79m\m2) in order to maintain high tree species richness and tree species relative abundance.
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References
De Laender, F., Rohr, J.R. Ashauer, R.et al (2016) Re- introducing environmental change drivers in biodiversity- ecosystem functioning research trends in Ecology and Evolution, 31,905-915.
Driscoll, D. A., Banks, S. C., Barton, P. S., Lindenmayer, D. B., & Smith, A. L. (2013). Conceptual domain of the matrix in fragmented landscapes. Trends in Ecology and Evolution, 28(10), 605–613. https://doi. org/10.1016/j.tree.2013.06.010.
Echeverría, C., Coomes, D., Salas, J., Rey-Benayas, J. M., Lara, A. & Newton, A. (2006). Rapid fragmentation and deforestation of Chilean Temperate Forests. Biological Conservation, 130, 481-494.
Echeverría, C., Newton, A.C., Lara, A., Benayas, J.M.R., Coomes, D.A. (2007): Impacts of forest fragmentation on species composition and forest structure in the temperate landscape of southern Chile. Global Ecology and Biogeography 16, 426-439.
Ewers, R.M. and Didham, R.K. (2006a): Confounding factors in the detection of species responses to habitat fragmentation. Biological Review 81:117–142.
Ewers, R.M. and Didham, R.K (2006b): Continuous response functions for quantifying the strength of edge effects. Journal of Applied Ecology 43:527–536.
Fahrig, L., (2003): Effects of habitat fragmentation on biodiversity. Annual review of ecology, evolution, and systematics, 487-515.
Fahrig L. (2017). Ecological responses to habitat fragmentation per se. Annual Review of Ecology, Evolution, and Systematics, 48, 1–23.
Fahrig, L., V. Arroyo-Rodríguez, J. R. Bennett, V. Boucher-Lalonde, E. Cazetta, D. J. Currie, F. Eigenbrod, A. T. Ford, S. P. Harrison, J. A. G. Jaeger, N. Koper, A. E. Martin, J.-L. Martin, J. P. Metzger, P. Morrison, J. R. Rhodes, D. A. Saunders, D. Simberloff, A. C. Smith, L. Tischendorf, M. Vellend, and J. I. Watling. (2019). Is habitat fragmentation bad for biodiversity? Biological Conservation230:179-186.
Fischer, E. (2004): Influence of anthropogenic and natural fragmentation on diversity of flora and vegetation in montane rainforests in East Africa, in: BIOTA East Africa, Final report phase I: 2001 – 2004
Fletcher, R. J., Didham, R. K., Banks-Leite, C., Barlow, J., Ewers, R. M., Rosindell, J. and Haddad, N. M. (2018). Is habitat fragmentation good for biodiversity? Biological Conservation, 226, 9–15. https://doi. org/10.1016/j.biocon.2018.07.022.
Freund, W. (2005): Effects of fragmentation and degradation of an afrotropical rain forest on the diversity structure of leaf beetle communities (Coleoptera, Chrysomelidae), Ph.D. thesis, University of Bonn, Germany.
Geldenhuys CJ (1997) Native forest regeneration in pine and eucalypt plantations in Northern Province, South Africa; For Ecol Manage 99:101–115
Gould, W., (2000): Remote sensing of vegetation, plant species richness, and regional biodiversity hotspots. Ecological Applications 10, 1861-1870.
Haddad, N.M. et al., (2015). Habitat fragmentation and its lasting impact on earths’ ecosystems. Sci. Adv.1, e1500052.
Harcourt, A. and D. Doherty., (2005). Species-area relationships of primates in tropical forest fragments: a global analysis. J Applied Ecology 42:630-637.
Jan.M.Baert (2017) Non-linear partitioning of biodiversity effects on ecosystem functioning.Ecology,vol.8, no.10,pp. 204-210
Keenan, R.J., Reams, G.A., Achard, F., de Freitas, J.V., Grainger, A., Lindquist, E. (2015). Dynamics of global forest area: results from the FAO Global Forest Resources Assessment 2015. For. Ecol. Manage. 352, 9–20.
KNBS (2019). 2019 Kenya Population and Housing Census: Volume 1A Population Distribution by Administrative Units; Nairobi. Kenya National Bureau of Statistics, Ministry of Planning & National Development, Kenya.
Kokwaro, J.O. (1988) Conservation status of the Kakamega Forest in Kenya: the easternmost relic of the equatorial rainforests of Africa. Monogr. Syst. Bot. Misouri Bot. Garden25:471-489.
Laurance, L. V. Ferreira, J. M. Rankin-deMerona, and S. G. Laurance, (1998). “Rain forest fragmentation and the dynamics ofAmazonian tree communities,” Ecology, vol. 79, no. 6, pp. 2032– 2040,
Laurance, W.F (2000): Do edge effects occur over large spatial scales? Trends Ecol Evol 15:134–135.
Laurance WF, Nascimento HEM, Laurance SG, Andrade AC, Fearnside PM, Ribeiro JEL, Capretz RL (2006) Rain forest fragmentation and the proliferation of successional trees. Ecology 87:469–482
Laurance, W., (2007): Ecosystem decay of Amazonian forest fragments: implications for conservation. In: Tscharntke, T., Leuschner, C., Zeller, M., Guhardja, E., Bidin, A. (Eds.), Stability of Tropical Rainforest Margins. Springer Berlin Heidelberg, pp. 9-35.
Laurance W.F, Nascimento HEM, Laurance SG, Andrade A, Ewers RM, Harms KE, Luizao RCC, Ribeiro JE (2007): Habitat fragmentation, variable edge effects, and the landscape–divergence hypothesis. PLoS ONE 2:e1017.
Laurance WF, Camargo JLC, Luizao RCC, Laurance SG, Pimm SL, Bruna EM, Stouffer PC, Williamson GB, Benı´tez- Malvido J, Vasconcelos HL, Van Houtan KS, Zartman CE, Boyle SA, Didham RK, Andrade AC, Lovejoy TE (2011). The fate of Amazonian forest fragments: a 32-year investigation. Biol Conserv 144:56–67
Lung, T., Schaab, G. (2006). Assessing fragmentation and disturbance of west Kenyan rainforests by means of remotely sensed time series data and landscape metrics. African Journal of Ecology 44, 491–506.
Mammides, C. Cords, M., Peters, M.K., (2009). Effects of habitat disturbance and food supply on population densities of three primate species in the Kakamega Forest, Kenya. African Journal of Ecology 47, 87-96.
May F, Rosenbaum B, Schurr FM, Chase JM. (2019). The geometry of habitat fragmentation: Effects of species distribution patterns on extinction risk due to habitat conversion. Ecol Evol. 9, 2775–2790.
.Mitchell, N. (2004): The exploitation and disturbance history of Kakamega Forest, Western Kenya, BIOTA East Report No. 1, Bielefelder Ökologische Beiträge, Band 20, Bleher, B. &Dalitz, H. (eds.).
Mumbi, C., Marchant, R., Hooghiemstra, H., Wooller, M., (2008): Late Quaternary vegetation reconstruction from the Eastern Arc Mountains, Tanzania. Quaternary Research 69, 326-341.
Nackoney, J., Molinario, G. (2014). Impacts of civil conflict on primary forest habitat in Nothern Democratic Republic of the Congo, 1990-2010. Biol. Conserv. 170,321-328.
Omoro, L.M.A., Pellikka, P.K.E., Rogers, P.C., 2010. Tree species diversity, richness, and similarity between exotic and indigenous forests in the cloud forests of Eastern Arc Mountains, Taita Hills, Kenya. J. For. Res. 21 (3), 255–264.
Pardini, R., Marquez de Souza, S., Braga-Neto, R. & Metzger, J. P. (2005) The role of Forest structure, fragments size and corridors in maintaining small mammal abundance and diversity in an Atlantic forest landscape. Biological Conservation, 124, 253-266.
Rashid, I., Romshoo, S., Vijayalakshmi, T., (2013): Geospatial modelling approach for identifying disturbance regimes and biodiversity rich areas in North Western Himalayas, India. Biodivers Conserv, 1-30.
Ribeiro, J.C.T., Nunes-Freitas A.F., Fidalgo, E.C.C., Uzêda., M.C (2019).: Forest fragmentation and impacts of intensive agriculture: Responses from different tree functional groups. PLoe0212725.https://doi.org/10.1371/journal.pone.0212725
Regolin, A. L., Ribeiro, M. C., Martello, F., Melo, G. L., Sponchiado, J., de Campanha, L. S., Caceres, N. C. (2020). Data from: Spatial heterogeneity and habitat configuration overcome habitat composition influences on alpha and beta mammal diversity. Dryad Digital Repository, https://doi.org/10.5061/dryad.9s4mw6mcd.
Reinmann, A.B., Hutyra, L.R. (2017). Edge effects enhance carbon uptake and its vulnerability to climate change in temperate broadleaf forests. PNAS 114 (1), 107–112.
Republic of Kenya, (2013). The First Taita Taveta County Integrated Development Plan 2013-2017. Wundanyi, Kenya, 263p.
Resende CL, Scarano FR, Assad ED, Joly CA, Metzger JP, Strassburg BBN, et al. (2018).From hotspot to hotspot: An opportunity for the Brazilian Atlantic Forest. Perspect Ecol Conserv. 16, 208–214.
Saikia, A., Hazarika, R., Sahariah, D., (2013): Land-use/land-cover change and fragmentation in the Nameri Tiger Reserve, India. Geografisk Tidsskrift-Danish Journal of Geography 113, 1-10.
Shirima, D.D., Munishi, P.K.T., Lewis, S.L., Burgess, N.D., Marshall, A.R., Balmford, A., Swetnam, R.D., Zahabu, E.M., (2011): Carbon storage, structure and composition of Miombo woodlands in Tanzania’s Eastern Arc Mountains. African Journal of Ecology 49, 332-342.
Spasojevic, M.J, Harline K, Stein C, Mangan S.A, Myers J.A. (2019). Landscape context mediates the relationship between plant functional traits and decomposition. 438, 377–391.
Wekesa, C., Leley, N., Maranga, E., Kirui, B., Muturi, G., Mbuvi, M., Chikamai, B. (2016). Effects of forest disturbance on vegetation structure and aboveground carbon in three isolated forest patches of Taita Hills. Open J. Forest. 6, 142–161.
Wekesa, C., Maranga, E.K., Kirui, B.K., Muturi, G.M., Gathara, M. (2018). Interactions between native tree species and environmental variables along forest edge-interior gradient in fragmented forest patches of Taita Hills, Kenya. For. Ecol. Manage. 409, 789–798.
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Copyright (c) 2024 Emma Anyango, Prof. Boniface O. Oindo, Joan Namasaka, Catherine Nyongesa, Grace Onoka
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