Morphological characteristic and physical environment of Terminalia catappa in East Kalimantan, Indonesia
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Abstract
Abstract. Marjenah, Putri NP. 2017. Morphological characteristics and physical environment of Terminalia catappa in East Kalimantan, Indonesia. Asian J For 1: 33-39. Tropical almond (Terminalia catappa) is a large tree and is widely distributed throughout the tropics, especially in coastal environments. This plant has the potentials to be developed intensively as forestry commodity since the timber can be made into a useful and decorative general-purpose hardwood and is well suited for conversion into furniture and interior building timbers. Yet, there is limited knowledge on its ecological performance regarding the environments where it grows. Therefore, this research aimed to determine the growth of T. catappa in varying altitudinal ranges in three locations in East Kalimantan, Indonesia and to investigate the relationship among morphological characteristics and environmental factors. The results of statistical analysis showed that differences in altitudinal ranges had no significant effects on the growth of stem diameter, angle of branching, and width of canopy closure. Meanwhile, the analysis on stem height and radius of canopy showed highly significant differences. The exploration and characterization of T. catappa plants are still needed to reveal the potentials of its germplasm to be developed as forestry plants and not only for ornamental purposes.
2017-01-01
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mineral element and anti-nutrient in almond (Terminalia catappa)
seeds. Res J Appl Sci 7 (9-12): 489-493.
Apata DF. 2011. Effect of Terminalia catappa Fruit Meal Fermented by
Aspergillus niger as Replacement of Maize on Growth Performance,
Nutrient Digestibility, and Serum Biochemical Profile of Broiler
Chickens. Department of Animal Production, University of Ilorin,
Ilorin, Nigeria.
Arx GV, Dobbertin M, Rebetez M. 2012. Spatio-temporal effects of forest
canopy on understory microclimate in along-term experiment in
Switzerland. Agric For Meteor 166-167 (2012): 144- 155.
Dos-Santos OV, Lorenzo ND, Da Silva Lannes SC. 2016. Chemical,
morphological, and thermogravimetric of Terminalia catappa Linn.
Food Sci Technol Campinas 36 (1): 115-158.
Edwin-Wosu NL, Omara-Achong T, Nyannannyo BL. 2013.
Ecogeographical amplitude and habitat of two species of Genus
Terminalia (Combretaceae) in the Central Niger Delta Areas in
Rivers State. J Appl Sci Environ Manag 17 (1): 75-80.
Goldsworthy PR, Fisher NM. 1992. The Physiology of Tropical Field
Crops. (In Bahasa Indonesia. Translator: Tohari). Gadjah Mada
University Press. Yogyakarta.
Hayward DF. 1990. The phenology and economic potential of Terminalia
catappa L. in South-Central Ghana. Vegetatio 90: 125-131.
Henn JJ, McCoy MB, Vaughan CS. 2014. Beach almond (Terminalia
catappa, Combretaceae) seed production and predation by Scarlet
Macaws (Ara macao) and Variegated Squirrels (Sciurus
variegatoides). Rev Biol Trop (Int J Trop Biol) 62 (3): 929-938.
Morton JF. 1985. Indian Almond (Terminalia catappa) Salt-Tolerant,
Useful, Tropical Tree with “Nut” Worthy of Improvement. Econ Bot
39 (2): 101-112.
Oboh B, Ogunkanmi B, Olasan L. 2008. Phenotype diversity in
Terminalia catappa from South Western Nigeria. Pakistan J Biol Sci
11 (1) 135-138.
Raju AJS, Lakshmi PV, Ramana KV. 2012. Reproductive ecology of
Terminalia pallida Brandis (Combretaceae), an endemic and
medicinal tree species of India. Curr Sci 102 (6):-.
Setyawan AD. 1999. Status of the Alpinia genus taxonomy based on
morphological characteristic, anatomy, and chemical essential oil
content. BioSMART 1 (1):31-40. (Indonesian)
Thomson LAJ, Evans B. 2006. Terminalia catappa. Species Profiles for
Pacific Island Agroforestry. www.traditionaltree.org