Influence of Pruning Regime on Woody Species Density and Abundance in Kimondi Forest, Kenya

  • Emma Anyango Maseno University
  • Joyce A. Obuoyo, PhD Maseno University
  • Boniface O. Oindo, PhD Maseno University
DOI: https://doi.org/10.37284/eajfa.8.1.3335
Keywords: Silvicultural Regimes, Pruning Regime, Woody Species Abundance, Woody Species Density
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Abstract

Globally, silviculture is concerned with the establishment, development, upkeep, and propagation of timber stands to increase the shock resistance of forests and the global adaptability and resilience of ecosystems.  While silvicultural regimes are widely recognised for enhancing timber quality and stand structure, their long-term ecological impacts on woody species density and abundance remain underexplored. Existing studies have primarily focused on species selection, leaving a significant knowledge gap regarding the effectiveness and optimisation of pruning regime intensity. The research aimed to assess the influence of the pruning regime on woody species density and abundance. This study focused on Cupressus lusitanica and Pinus patula. The study adopted a cross-sectional descriptive study design, using systematic sampling. Analysis was done using Box plots, Analysis of Variance and Duncan’s multiple range test. Box plots showed that Cupressus lusitanica exhibited higher performance with greater variability, while Pinus patula showed more consistent but slightly lower outcomes. A one-way ANOVA revealed a highly significant difference in tree abundance and density across pruning treatments (p = 0.028), with an effect size (Eta²) of 0.61139, indicating that 61.39% of the variation is attributable to pruning practices. Duncan’s test further confirms that higher pruning intensity reduces woody species density, while moderate pruning enhances regeneration. The findings revealed the importance of the pruning regime on woody species density and abundance and recommended that tailored silvicultural practices are key in advocating for formative pruning as a sustainable and cost-effective method in early tree development stages

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References

Abunie A. A. and G. Dalle (2019). “Woody species abundance, structure, and regeneration status Yemrehane Kirstos church forest of Lasta Woreda, North Wollo zone, Amhara region, Ethiopia,” International Journal of Forestry Research, vol. 2018, Article ID 5302523, 8 pages, 2018. Centre for International Agricultural Research Policy Brief, Research Findings with Policy Implications. Canberra: ACIAR.

Anna L., Johan Ö. And Björn W. (2023), Pruning revisited – effect of pruning season on wood discoloration and occlusion in four temperate broadleaved tree species Forestry: An International Journal of Forest Research, Volume 96, Issue 4, October 2023, Pages 605–617,

Bekele, T. (2015). Integrated Utilization of Eucalyptus saligna globulus grown on the Ethiopian Highlands and its Contribution to Rural Livelihood: A Case Study of Oromia, Amhara and Southern Nations Nationalities and People’s Regional State Ethiopia. International Journal of Basic and Applied Sciences, 4(2), 80-87.

D’Amato AW and Palik B.J. (2020). Building on the last “new” thing: exploring the compatibility of ecological and adaptation silviculture. Canadian Journal of Forest Research 51:172–180. https://doi.org/10.1139/cjfr--0306

FAO & UNEP. (2020). The State of the World’s Forests 2020. Forests, bioabundance and people – In brief. Rome ISBN 978-92-5-132707-4.

Feyisa, K., Beyene, S., Megersa, B., Said, M. Y., De Leeuw, J., & Angassa, A. (2018). Allometric equations for predicting above-ground biomass of selected woody species to estimate carbon in East African rangelands. Agroforestry Systems, 92(3), 599–621. https://doi.org/10.1007/s10457-016-9997-9

Gebeyehu, G., Soromessa, T., Bekele, T., and Demel, T. (2021) “Species composition, stand structure, and regeneration status of tree species in dry Afromontane forests of Awi zone, northwestern Ethiopia,” Ecosystem Health and Sustainability, vol. 5, no. 1, pp. 199–215.

Keyser TL, Loftis DL (2015) Stump sprouting of 19 upland hardwood species 1year following initiation of a shelterwood with reserves silvicultural system in the southern Appalachian Mountains, U.S.A. New Forests 45: 449–464. https://doi.org/10.1007/s11056-015-9470-z

Kerketta J.K., Singh S, Kumar B. (2018). Effect of silvicultural treatments on quantity and quality assessment of Tendu (Diospyros melanoxylon Roxb.) leaves. Journal of Pharmacognosy and Phytochemistry; SP1:1317- 1322.

Kinyanjui, M, Njoroge, J., and Githaiga, J. M. (2023). Above-ground carbon stocks in Kakamega and North Nandi Forests. PLoS ONE, 18(10), e10684878. https://doi.org/10.1371/journal.pone.10684878

Kiptoo, B. K., & Korir, L. K. (2020). Species-specific management recommendations in Kimondi Forest: A silvicultural review. East African Journal of Forestry Science, 7(2), 45–53.

Kiruki, H. M., van der Zanden, E. H., Gikuma-Njuru, P. & Verburg, P. H. (2018), The effect of charcoal production and other land uses on diversity, structure and regeneration of woodlands in a semi-arid area in Kenya. For. Ecol. Manage. 391, 282–295.

Koivula M., I. and Vanha-Majamaa (2020), Experimental evidence on biodiversity impacts of variable retention forestry, prescribed burning, and deadwood manipulation in Fennoscandia, Ecological Processes, 9, 11.

Kremer K.N. and Bauhus J (2020) Drivers of native species regeneration in the process of restoring natural forests from mono-specific, even-aged tree plantations: a quantitative review. Restoration Ecology 28:1074–1086. https://doi.org/ 10.1111/rec.13247

Kuuluvainen. T., S. Gauthier, (2018), Young and old forest in the boreal: critical stages of ecosystem dynamics and management under global change, Forest Ecosystems, 5, 26.

Ladrach. W.,(2009), Management of Teak Plantations for Solid Products, Zobel Forestry Associates, Derwood, Md, USA.

Lencinas M. V., Pastur G. M., Gallo E., Cellini J. M. (2011). Alternative silvicultural practices with variable retention to improve understory plant diversity conservation in southern Patagonian forests. For. Ecol. Manage. 262 1236–1250. 10.1016/j.foreco.06.021

Mensah, A. K. (2016). Effects of Eucalyptus saligna Plantation on Soil Physico-Chemical Properties in Thiririka SubCatchment, Kiambu County, Kenya (Doctoral dissertation, Kenyatta University).

Mwanzia, R. K., Gitonga, D. K., & Wekesa, J. (2021). Monitoring biodiversity changes in Nandi Forest ecosystems. African Journal of Ecology, 59(3), 349–358. https://doi.org/10.1111/aje.12798

Niemistö, P., Kilpeläinen, H.and Heräjärvi, H. (2019). Effect of pruning season and tool on knot occlusion and stem discoloration in Betula pendula – situation five years after pruning. Silva Fennica 53, 1–29.

Njoroge, J., Githaiga, J. M., & Kinyanjui, M. (2023). Above-ground carbon stocks in Kakamega and North Nandi Forests. PLoS ONE, 18(10), e10684878. https://doi.org/10.1371/journal.pone.10684878

O’Hara KL, Ramage BS (2013), Silviculture in an uncertain world: Utilizing multi-aged management systems to integrate disturbance. Forestry 86:401–410

Odhiambo M., Tsingalia M.H., Joshua C. and David O. (2020). Population structure and regeneration status of woody species in a remnant tropical forest: A case study of South Nandi forest, Kenya. https://doi.org/10.1016/j.gecco.e00820

Odhiambo, S. J., & Cherono, M. L. (2024). Forest stand response to silvicultural interventions in Western Kenya plantations. Kenya Journal of Natural Resources, 9(1), 22–35.

Oduor, N. O., & Githiomi, J. K. (2021). Effect of pruning on East African tree species productivity. Tropical Forestry Bulletin, 14(4), 203–215.

Omondi S. F., Cherotich L., Chagala E., Kariuki J., Mbinga J., Kimani P., Cherono F., and Oballa P. 2020. Status of Tree Breeding in Kenya. A KEFRI-Gatsby Project report.

Omoro L. M. A., Starr M., Pellikka P. K. E. (2013). Tree biomass and soil carbon stocks in indigenous forests in comparison to plantations of exotic species in the Taita Hills of Kenya. Silva Fennica vol. 47 no. 2 article id 935. https://doi.org/10.14214/sf.935

Onyango, A. A., Angaine, P. M., and Owino, J. O. (2020) ‘Patula Pinus patula (Pinus patula) cone opening under different treatments for rapid seed extraction in Londiani, Kenya’, Journal of Horticulture and Forestry, 12(June), pp. 63-69.

Otuoma, J., Anyango, B., Ouma, G., Okeyo, D., Muturi, G.M., Oindo, B. (2016). Determinants of above-ground carbon offset additionality in plantation forests in a moist tropical forest in Western Kenya. For. Ecol. Manage. 365, 61–68.

Palik, B.J., Ostry, M.E., Venette, R.C. and Abdela, E. (2020). Tree regeneration in black ash (Fraxinus nigra) stands exhibiting crown dieback in Minnesota. For. Ecol. Mange. 269, 26–30.

Pietzarka, U. (2016). Tree pruning: methods and parameters. In Urban Tree Management: For the Sustainable Development of Green Cities. A., Roloff (ed.). John Wiley & Sons, pp. 154-168.

Piispanen R, Heinonen J, Valkonen S, Mäkinen H, Lundqvist S-O, Saranpää P (2014) Wood density of Norway spruce in uneven-aged stands. Can J For Res 44(2):136–144.

Puettmann KJ, Coates KD, Messier CC (2009) A critique of Silviculture: managing for complexity. Cambridge University Press, Cambridge, United Kingdom.

Rance W. and Monteuuis. O. 2011, “Teak in Tanzania. An overview of the context,” 2011, http://bft.cirad.fr/cd/BFT_279_5-10.pdf. View at: Google Scholar.

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.

Sadono R. (2017). Temporary site index for two-invented teak clones with generative regeneration in the state forestland in East Java, Indonesia. Advances in Environmental Biology. 11:6‒ 12.

SAIEA, (2016). Strategic environmental assessment of large-scale bush thinning and value-addition activities in Namibia.

Schmitt, A.; Trouvé, R.; Seynave, I.; Lebourgeois, F. (2020), Decreasing stand density favors resistance, resilience, and recovery of Quercus petraea trees to a severe drought, particularly on dry sites. Ann. For. Sci. 77.

SIS-Swedish Institute for Standards (2020).Tree Care — Processes and Methods for Tree Pruning — Part 2: Requirements for Providers Swedish Institute for Standard, pp. SS 990001–SS 990002.

Stere ´nczak, K.; Mielcarek, M.; Wertz, B.; Bronisz, K.; Zaj ˛aczkowski, G.; Jagodzi ´nski, A.M.; Ochał, W.; Skorupski, M.(2019), Factors influencing the accuracy of ground-based tree-height measurements for major European tree species. J. Environ. Manag. 231, 1284–1292.

Stimm, K.; Heym, M.; Uhl, E.; Tretter, S.; Pretzsch, H. (2021). Height growth-related competitiveness of oak (Quercus petraea (Matt.) Liebl. and Quercus robur L.) under climate change in Central Europe. Is silvicultural assistance still required in mixed-species stands? For. Ecol. Manag. 482, 118780.

Swaim J.T., Dey D.C, Saunders M.R., Weigel D.R., Thornton C.D., Kabrick J.M., Jenkins M.A. (2018) Overstory species response to clearcut harvest across environmental gradients in hardwood forests. Forest Ecology and Management 428:66–80. 8.

Terefe A.and Gure A. (2019), “Effect of exclosure on woody species abundance and population structure in comparison with adjacent open grazing land: the case of Jabi Tehnan district north western Ethiopia,” Ecosystem Health and Sustainability, vol. 5, no. 1, pp. 98–109.

Turner, J. A., Harrington, J., & Yao, R. T. (2021). Pruning and plantation dynamics in New Zealand’s managed forests. New Zealand Journal of Forestry Science, 51(1), 10. https://doi.org/10.1186/s40490-021-00201-2

Wanjira, E.O & Muriuki, J. (2020). Review of the Status of Agroforestry Practices in Kenya. Background study for preparation of Kenya National Agroforestry Strategy (2020 – 2030). World Agroforestry, Nairobi.

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.

Zhang, L., Lin, F., & Chang, Y. (2022). Effects of pruning regimes on tree architecture and growth in managed pine forests. Annals of Forest Science, 79, 45

Zhang L.H, Qi J.Q, Li T.T, Yu S.R, Zhang X.Y, Zhang R, Hao J.F (2019) Effects of stand density on understory plant diversity and biomass in a Pinus massoniana plantation in Wenfeng Mountain, Xinjin County. Acta Ecol Sin 39(15):5709–5717.

Published
17 July, 2025
How to Cite
Anyango, E., Obuoyo, J., & Oindo, B. (2025). Influence of Pruning Regime on Woody Species Density and Abundance in Kimondi Forest, Kenya. East African Journal of Forestry and Agroforestry, 8(1), 336-349. https://doi.org/10.37284/eajfa.8.1.3335
Issue
Vol 8 No 1 (2025): East African Journal of Forestry and Agroforestry
Section
Articles

Copyright (c) 2025 Emma Anyango, Joyce A. Obuoyo, PhD, Boniface O. Oindo, PhD

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