Different land uses result in different vegetation condition and macro-fauna distribution in a landscape. Information on land use condition is paramount for development of strategies that enhance biodiversity conservation and sustainable resource use. A study was conducted to characterise the vegetation and termite distribution in the three land use types of protected area (PA), harvested woodland (HW) and traditional agriculture (TA) in Salima District, Malawi. Data were collected from 42 plots on tree species, diameter at breast height, regeneration, termite species and abundance. R Statistical package version 3.4.2 and GenStat Release version 14.2 were used for statistical analyses. There was significantly (p < 0.05) higher tree species diversity and stem density in the HW and TA than in the PA, supposedly, due to a positive tree harvesting effect on tree regeneration in the HW and TA as a form of disturbance. The HW and TA showed stable tree population while PA was characterised with an ageing tree population. Highest similarity on tree species composition was recorded between TA and HW (48%). Regeneration was also significantly higher (p < 0.05) in HW and TA fields than in the PA. Macrotermes natalensis termite species dominated in all land uses with highest density and abundance in TA while Psammotermes allocerus was only found in the HW. We conclude that strict management of forest reserves may not achieve tree diversity; and recommend a ‘suite’ of management measures to balance conservation and promotion of tree diversity. Integrated pest management approach is proposed to prevent field crop losses due to termites.
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Aquino AH, da Silva BF, Mercante FM, Correis MEF, Guimaraes MDF, Lavelle P (2008) Invertebrate soil macrofauna under different ground cover plants in the no-till system in the Cerrado. Eur J Soil Biol 44:191–197
Assede ESP, Azihou FA, Adomou AC, Oumorou M, Sinsin B (2015) Effet du relief sur la regeneration des especes lignenses en zone soudanienne du Benin. Bois For Trop 326:15–24 (in French)
Banda T, Schwartz MW, Caro T (2006) Woody vegetation structure and composition along a protection gradient in a Miombo ecosystem of western Tanzania. For Ecol Manag 230:179–185
Banda T, Mwangulango N, Meyer B, Schwartz MW, Mbango F, Sungula M, Carol T (2008) The woodland vegetation of the Katavi-Rukwa Ecosystem in western Tanzania. For Ecol Manag 255:3382–3395
Beedy T, Njoloma J, Aynekulu E, Coe R, Takoutsing B, Shepherd K (2015) Land health surveillance for four sites in Malawi. Working paper number 192. World Agroforestry Centre, Nairobi. http://dx.doi.org/10.5716/WP14254.PDF
Borror DJ, Delong DM, Triplehon CA, Johnson NF (1981) An introduction to the study of insects, 7th edn. Rinchart and Winston, New York
Chao A (1984) Non-parametric estimation of the number of classes in a population. Scand J Stat 11:265–270
Chao A, Chazdon RL, Colwell RK, Shen TJ (2006) Abundance-based similarity indices and their estimation when there are unseen species in samples. Biometrics 62:361–371
Dahlsjo CAL, Parr CL, Malhi Y, Meir P, Eggleton P (2014) Describing termite assemblage structure in a Peruvian lowland tropical rainforest: a comparison of two alternative methods. Insect Soc 62:141–150
Davies AB, Eggleton P, van Ransburg BJ, Parr CL (2015) Seasonal activity patterns of African savanna termites vary across a rainfall gradient. Insect Soc 62:157–165
DeSouza O, Cancello EM (2015) Termites and ecosystem functioning. www.isoptera.ufv.br/pluginfile.php?file=/8/mod_page/content/19/ourPapersPdf/2010DeSouzaCancelloEolss.pdf. Accessed 04 Dec16
Eggleton P, Homathevi R, Jones DT, Macdolnald J, Jeeva D, Bignell DE, Davies RG, Maryati M (1999) Termite assemblages, forest disturbance, and greenhouse gas fluxes in Sabah, East Malysia. Philos Trans R Soc Biol Sci 354:1791–1802
Geldenhuys CJ (2010) Managing forest complexity through application of disturbance-recovery knowledge in development of silvicultural systems and ecological rehabilitation of natural systems in Africa. J For Restor 15:3–13
Geldenhuys CJ (2015) Ecological basis for integrated, multiple-use management of Mozambique forest and woodland plantations. SESA Report to deal with REDD+. Report number FW-04/15. Forestwood, Pretoria
Geldenhuys CJ, Murray B (1993) Floristic and structural composition of Hanglip forest in Soutpansberg, northern Transvaal. S Afr For J 165:9–19
GenStat (2011) GenStat Release 14.2, 14th edn. VSN International Ltd, Oxford
Giliba RA, Boon EK, Kayombo CJ, Musamba EB, Kashindye AM, Shayo PF (2011) Species composition, richness and diversity in Miombo woodland of Bereku Forest Reserve, Tanzania. J Biodiv 2:1–7
Grundy IM (1995) Regeneration and management of Brachystegia spiciformis Benth. and Julbernardia globiflora (Benth). Troupin in miombo woodland, Zimbabwe, PhD Thesis. University of Oxford
Grundy IM, Campbell BM, Frost PGH (1994) Spatial pattern, regeneration and growth rates of Brachystegia spiciformis n Julbernardia globiflora. Vegetation 115:101–107
Isango JA (2007) Stand structure and species composition of Tanzania Miombo woodlands: a case study from Miombo woodlands of community-based forest management in Iringa District. In: Working paper of the Finnish Forest Research Institute, vol 50, pp 43–56
Jaccard P (1912) The distribution of the flora of the Alpine zone. New Phytol 11:37–50
Jew EKK, Dougill AJ, Sallu SM, O’Connel J, Benton TG (2016) Miombo woodland under threat: consequences for tree diversity and carbon storage. Forest Ecol Manag 361:144–153
Kalaba FK, Quinn CH, Dougill AJ (2012) Carbon storage, biodiversity and species composition of Miombo woodlands in recovery trajectory after charcoal production and slush and burn agriculture in Zambia’s Copperbelt. Sustainability Research Institute. Paper No. 40. School of Earth and Environment, The University of Leeds
Kitivo E, Kimatu JM, Nyamasyo GH, Ndengwa PN (2015) Diversity and abundance of Subterranean termites engineers islands of soil quality in different land cover types. School of Pure and Applied Sciences. http://repository.seku.ac.ke/handle/123456789/2656. Accessed 05 Dec 2016
Lameed GA, Ayodele AE (2010) Effect of quarrying activity on biodiversity: case study of Ogbere site, Ogun State Nigeria. Afr J Environ Sci Technol 4:740–750
Lowole MW (1995) Soils of Malawi and their nutrient constraints. File DIZ, E2, Soil Survey Unit, Lilongwe, Malawi
Luoga EJ, Witkowski ETF, Balkwill K (2004) Regeneration by coppicing (resprouting) of Miombo (African savanna) trees in relation to land use. For Ecol Manag 189:23–35
Magurran AE (2004) Measuring biological diversity. Blackwell Publishing, Malden
Maliondo SMS, Abeli WS, Meiludie RELO, Mugunga GA, Kimaro AA (2005) Tree species composition and potential timber production of a communal Miombo in Handeni District, Tanzania. J Trop For Sci 17:104–120
Missanjo E, Kamanga-Thole G, Mtambo C, Chisinga O (2014) Evaluation of natural regeneration and tree species diversity in Miombo woodlands in Malawi. J Biodivers Manag For 3:3. https://doi.org/10.4172/2327-4417.1000127
Moyo S, O’Keefe P, Sill M (1993) The Southern African environment. Earthscan, London
Muller MLD (2014) fitdistrplus: an R package for fitting ditributions. J Stat Softw 64:1–34
Mutema M, Mafongoya PL, Nyagumbo I, Chikukura L (2013) Effects of crop residues and reduced tillage on macrofaunal abundance. J Org Syst 8:5–16
Neelo J, Teketay D, Kashe K, Masamba W (2015) Stand structure, diversity and regeneration status of woody species in open and enclosed dry woodlands sites around molapo farming areas of the Okavango Delta, Northeastern Botswana. Open J For 5:313–328
Noble IR, Dirzo R (1997) Forest as human dominated ecosystems. Science 277:522–525
Palin OF, Eggleton P, Malhi Y, Girardin CAJ, Rozas-Davil A, Parr CL (2011) Termite diversity along an Amazon-Andes elevation gradient, Peru. Biotropica 43:100–107
Peter CM (2005) Sustainable harvest of non-timber plant resources in tropical moist forest. An ecologica primer. http://pdf.usaid.gov/pdf_docs/pnabt501.pdf. Accessed 19 Sept 2017
Poovoli A, Rajmohana K (2016) Feeding group diversity of termites (Isoptera: Insecta) in Kerala. J Entomol Zool Stud 4:114–116
Possingham HP, Wilson KA, Andelman SJ, Vynne CH (2006) Protected areas: goals, limitations and design. In: Groom MJ, Meffe GK, Carrol CR (eds) Principles of conservation biology, 3rd edn. Sinauer Associates Inc, Sunderland, pp 509–533
R Development Core Team (2017) R: a language and environment for statistical computing. R Foundation for Statistical Computing, Vienna
Ribeiro NS, Syampungani S, Matakala NM, Nangoma D, Ribeiro-Barros AI (2015) Miombo woodlands research towards the sustainable use of ecosystem services in Southern Africa. In: Lo YH, Blanco JA, Roy S (eds) Agriculture and biological sciences: biodiversity in ecosystem-linking structure and function. IntechOpen, London
Ricci V (2005) Fitting distributions with R. https://cran.r-project.org/doc/contrib/Ricci-distributions-en.pdf. Accessed 20 Nov 2017
Rosenzweig C, Hillel D (eds) (2015) Handbook on climate change and agroecosystems. Emperial College Press, London
Royle JA (2004) N-Mixture models for estimating population size from spatially replicated counts. Biometrics 60:108–115
Ryan CM, Williams M, Grace J (2011) Above and below ground carbon stocks in a Miombo woodland of Mozambique. Biotropica 43:423–432
Sedano F, Silva JA, Machoko R, Meque CH, Sitoe A, Ribeiro N, Anderson K, Ombe ZA, Baule SH, Tucker CJ (2016) The impact of charcoal production on forest degradation: a case study of Tete, Mozambique. Environ Res Lett. https://doi.org/10.1088/1748-9326/11/9/094020
Sileshi G, Mafongoya PL (2005) Variation in macrofaunal communities under contrasting land use systems in eastern Zambia. Appl Soil Ecol 33:49–60
Sileshi G, Mafongoya PL, Kwesiga F, Nkunika P (2005) Termite damage to maize grown in agroforestry systems, traditional fallows and monoculture on nitrogen-limited soils in eastern Zambia. Agr For Entomol 7:61–69
Sileshi GW, Kuntashula E, Matakala P, Nkunika PO (2007) Farmers perception of tree mortality, pests and pest management practices in agroforestry in Malawi, Mozambique and Zambia. Agrofor Syst 72:87–101
Syampungani S, Geldenhuys CJ, Chirwa PW (2011) Miombo woodland utilisation and management and impact perception among stakeholders in Zambia: a call for policy change in southern Africa. J Nat Resour Policy Res 3:163–181
Syampungani S, Geldenhuys CJ, Chirwa PW (2015) Regeneration dynamics of Miombo woodland in response to different anthropogenic disturbances: forest characterisation for sustainable management. Agrofor Syst 1:11. https://doi.org/10.1007/s10457-015-9841-7
Tambara E, Murwira A, Katisu S, Torquebiau E (2012) Farming does not necessarily conflict with tree diversity in the mid-Zambezi Valley, Zimbabwe. Agrofor Syst 84:299–309
Zeidler J, Hanrahan S, Schores M (2002) Termite species richness, composition and diversity on five farms in southern Kunene region, Namibia. Afr Zool 37:7–13
Zida Z, Ouedraogo E, Mando A, Stroosnijder L (2011) Termite and earthworm abundance and taxonomic richness under long-term conservation soil management in Saria, Bukina Faso, West Africa. Appl Soil Ecol 51:122–129
We would like to thank the Borlaug Higher Education for Agricultural Research and Development for the financial support to carry out this study. Mr. C. Katsache, Mr. E. Ben, Mr. J. Mankhokwe and Mrs. E. Nkhwazi are appreciated for assisting in field data collection.
This study was funded by the Borlaug Higher Education for Agricultural Research and Development (Award Number BSF-G-11-00002).
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Nyirenda, H., Assédé, E.P.S., Chirwa, P.W. et al. The effect of land use change and management on the vegetation characteristics and termite distribution in Malawian Miombo woodland agroecosystem. Agroforest Syst 93, 2331–2343 (2019). https://doi.org/10.1007/s10457-019-00358-8
- Tree density
- Vegetation structure
- Macrotermes natalensis