Selecting Native Tree Species for Restoring Riparian Ecosystem, Tak Province
Abstract
This research investigated the selection of native forest tree species for restoring riparian forest in Tak Province. Ten native tree species were planted in degraded riparian forest in 4 replicated plots (10 m width and 30 m length) with 20 plants per species per plot. Survival and growth of all planted tree were monitored by measuring height, crown width and root collar diameter (RCD) and evaluated health score at initial stage (August 2019), end of the first rainy season (December 2019), beginning (May 2020), middle (August 2020) and end of the second rainy season (January 2021). Alphonsea ventricosa exhibited the highest per cent survival after second rainy season, (75.1 ± 9.1 %) followed by Artocarpus lacucha and Ar. chama (61.3 ±3.1 and 52.1± 9.3, respectively). No sapling of Cleidion javanicum and Garcinia xanthochymus survived. Mallotus nudiflorus achieved the highest relative growth rate of root collar diameter, height and crown width (75.7 ± 7.0, 68.2 ± 8.5 and 73.5 ± 14.6 %/year), followed by Protium serratum (54.4 ± 3.1, 48.4 ±7.2 and 55.0±7.1 %/year, respectively). Recommended species for initiating restoration of riparian forest therefore Alphonsea ventricosa, Artocarpus lacucha, Ar. chama, Mallotus nudiflorus and Protium serratum. Keywords : riparian forest, species diversity, forest restoration, seedling establishmentReferences
Broadmeadow, S., & Nisbet, T. R. (2004). The effects of riparian forest management on the freshwater environment: a literature review of best management practice. Hydrology and Earth System Sciences, 8, 286–305.
Bunyavejchewin, S., Y. Chamlongrach, R. Buasalee & P. Rayangkul. (2016). Trees & Forest of Huai Kha Khaeng Wildlife Sanctuary. The Rabbit in the Moon Foundation, Thailand. (in Thai)
Cole, L. J., Stockan, J., & Helliwell, R. (2020). Managing riparian buffer strips to optimise ecosystem services: a review, Agriculture, Ecosystems and Environment, 296, 106891. https://doi.org/10.1016/j.agee.2020.106891.
Ellen, H., & Markells, S. (2005). Riparian Buffer Zones: Functions and Recommended Widths. Yale School of Forestry and Environment Studies.
Elliott, S., Navakitbumrung, P., Kuarak, C., Zangkum, S., Anusarnsunthorn, V., & Blakesley, D. (2003). Selecting framework tree species for restoring seasonally dry tropical forests in northern Thailand based on field performance. Forest Ecology and Management, 184,177-191.
Elliott, S. D., Blakesley, D., & Hardwick, K. (2013). Restoring tropical forests: A practical guide. Richmond, Surrey, UK: Kew Publishing, Royal Botanic Gardens, Kew.
FORRU, Forest Restoration Research Unit. (2005). How to Plant a Forest: The Principles and Practice of Restoring Tropical Forests. Biology Department, Science Faculty, Chiang Mai University, Thailand.
Gardner, S., Sidisunthorn, P., & Chayamarit, K. (2015). Forest Trees of Southern Thailand, Volumes 1. Bangkok: Chulalongkorn University Book Center.
Gardner, S., Sidisunthorn, P., & Anusarnsunthorn, V. (2000). A field guide to forest trees of northern Thailand. Bangkok: Kobfai Publishing Project.
González, E., Sher, A. A., Tabacchi, E., Masip, A., & Poulin, M. (2015) Restoration of riparian vegetation: A global review of implementation and evaluation approaches in the international, peer-reviewed literature. Journal of Environmental Management, 158,85–94.
Hammer, Ø., Harper, D. A. T., Ryan, P. D. (2001). PAST: paleontological statistics software package for education and data analysis. Palaeontol Electron 4, 4–9.
Miyawaki, A. (1993). Restoration of native forests from Japan to Malaysia. In Leith, H. & Lohman, M. (eds). Restoration of tropical forest ecosystems. Kluwer Academic Publishers, Dordrecht, The Netherlands. pp 5-24.
Royal Forest Department. (2019). Forest statistic. Retrieved April 1, 2021, from http://forestinfo.forest.go.th/Content.aspx?id=10384
Thai Meteorological Department. (2019). Mae Sot Meteorological data.
UN Climate summit. (2014). The New York declaration on forest action statements and action plans. Retrieved from http://www.un.org/climatechange/summit/wp-
Waiboonya, P., Larpkern, P., Moungsrimuangdee, B., Yodsa-nga, P., & Thamkasathekorn, V. (2018). Testing direct seeding method of native tree species for restoring a disturbed mixed deciduous forest. Burapha Science Journal, 23 (1), 448-458. (in Thai)
Waiboonya, P., Larpkern, P., Moungsrimuangdee, B., & Yodsa-nga, P. (2019). Plant species composition and diversity in Ban Huai Hin Fon Community Forest, Tak province. Thai Journal of Forestry, 38(2), 27-40. (in Thai)
Bunyavejchewin, S., Y. Chamlongrach, R. Buasalee & P. Rayangkul. (2016). Trees & Forest of Huai Kha Khaeng Wildlife Sanctuary. The Rabbit in the Moon Foundation, Thailand. (in Thai)
Cole, L. J., Stockan, J., & Helliwell, R. (2020). Managing riparian buffer strips to optimise ecosystem services: a review, Agriculture, Ecosystems and Environment, 296, 106891. https://doi.org/10.1016/j.agee.2020.106891.
Ellen, H., & Markells, S. (2005). Riparian Buffer Zones: Functions and Recommended Widths. Yale School of Forestry and Environment Studies.
Elliott, S., Navakitbumrung, P., Kuarak, C., Zangkum, S., Anusarnsunthorn, V., & Blakesley, D. (2003). Selecting framework tree species for restoring seasonally dry tropical forests in northern Thailand based on field performance. Forest Ecology and Management, 184,177-191.
Elliott, S. D., Blakesley, D., & Hardwick, K. (2013). Restoring tropical forests: A practical guide. Richmond, Surrey, UK: Kew Publishing, Royal Botanic Gardens, Kew.
FORRU, Forest Restoration Research Unit. (2005). How to Plant a Forest: The Principles and Practice of Restoring Tropical Forests. Biology Department, Science Faculty, Chiang Mai University, Thailand.
Gardner, S., Sidisunthorn, P., & Chayamarit, K. (2015). Forest Trees of Southern Thailand, Volumes 1. Bangkok: Chulalongkorn University Book Center.
Gardner, S., Sidisunthorn, P., & Anusarnsunthorn, V. (2000). A field guide to forest trees of northern Thailand. Bangkok: Kobfai Publishing Project.
González, E., Sher, A. A., Tabacchi, E., Masip, A., & Poulin, M. (2015) Restoration of riparian vegetation: A global review of implementation and evaluation approaches in the international, peer-reviewed literature. Journal of Environmental Management, 158,85–94.
Hammer, Ø., Harper, D. A. T., Ryan, P. D. (2001). PAST: paleontological statistics software package for education and data analysis. Palaeontol Electron 4, 4–9.
Miyawaki, A. (1993). Restoration of native forests from Japan to Malaysia. In Leith, H. & Lohman, M. (eds). Restoration of tropical forest ecosystems. Kluwer Academic Publishers, Dordrecht, The Netherlands. pp 5-24.
Royal Forest Department. (2019). Forest statistic. Retrieved April 1, 2021, from http://forestinfo.forest.go.th/Content.aspx?id=10384
Thai Meteorological Department. (2019). Mae Sot Meteorological data.
UN Climate summit. (2014). The New York declaration on forest action statements and action plans. Retrieved from http://www.un.org/climatechange/summit/wp-
Waiboonya, P., Larpkern, P., Moungsrimuangdee, B., Yodsa-nga, P., & Thamkasathekorn, V. (2018). Testing direct seeding method of native tree species for restoring a disturbed mixed deciduous forest. Burapha Science Journal, 23 (1), 448-458. (in Thai)
Waiboonya, P., Larpkern, P., Moungsrimuangdee, B., & Yodsa-nga, P. (2019). Plant species composition and diversity in Ban Huai Hin Fon Community Forest, Tak province. Thai Journal of Forestry, 38(2), 27-40. (in Thai)
Downloads
Published
2022-09-01
Issue
Section
Research Article