Abstract
Traditional homegardens are an important component of the farming systems in many rural communities and have been highlighted considerably due to their sustainability and role in the conservation of biodiversity. However, the functional aspect of the homegardens, which includes the phenological behavior of the dominant tree species in such agroforestry systems, has been undermined till date, and there is a lack of adequate data on this aspect of the traditional homegardens. As a step in this direction the present study was carried out to determine the phenological behavior of important multipurpose trees in the homegardens of the village of Dargakona, Assam, northeast India. The study revealed the dominance of periodic growth deciduous species from a total of 25 tree species selected for phenological observation. The diversity of multipurpose trees in the homegardens is represented by different plant functional types with different phenological behavior which showed significant changes in their responses to inter-annual climatic variations. The diversity of tree species with different phenological behavior has implications for the temporal partitioning of resources, especially during periods of scarcity, thereby resulting in efficient utilization of resources such as water. Also the diverse phenological behavior plays an important role in regulating the food supply for the herbivore population and the year-round availability of products, and such information can be useful in the selection of species for integration into other agroforestry systems which can be sustainable in the long run.
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References
Benjamin TJ, Montanez PI, Jimenez JJ, Gillespie AR (2001) Carbon, water and nutrient flux in Maya homegardens in the Yucatan peninsula of Mexico. Agrofor Syst 53:103–111
Bhat DM (1992) Phenology of tree species of tropical moist forest of Uttara Kannada district, Karnataka, India. J Biosci 17:325–352
Bhat DM, Murali KS (2001) Phenology of understory species of tropical moist forest of Western Ghats region of Uttara Kannada district in South India. Curr Sci 81:799–805
Borchert R (1980) Phenology and ecophysiology of tropical trees: erythrina poeppigiana O.F. Cook. Ecology 61:1065–1074
Borchert R (2000) Organismic and environmental controls of bud growth in tropical trees. In: Viemont JD, Crabbe J (eds) Dormancy in plants: from whole plant behavior to cellular control. CAB International, Wallingford, pp 87–107
Borchert R, Rivera G, Hagnauer W (2002) Modification of vegetative phenology in a tropical semideciduous forest by abnormal drought and rain. Biotropica 34:27–39
Broadhead JS, Black CR, Ong CK (2003) Tree leafing phenology and crop productivity in semi-arid agroforestry systems in Kenya. Agrofor Syst 58:137–148
Das T, Das AK (2005) Inventorying plant biodiversity in homegardens: a case study in Barak Valley, Assam, North-East India. Curr Sci 89(1):155–163
Das T, Das AK (2010) Litter production and decomposition in the forested areas of traditional homegardens: a case study from Barak Valley, Assam, northeast India. Agrofor Syst 79(2):157–170
Elliott S, Baker PJ, Borchert R (2006) Leaf flushing during the dry season: the paradox of Asian monsoon forests. Glob Ecol Biogeogr 15:248–257
Fernandes ECM, Nair PKR (1986) An evaluation of the structure and function of tropical homegardens. Agric Syst 21:279–310
Grime JP, Crick JC, Rincon JF (1986) Ecological significance of plasticity. In: Jennings DH, Trewavas A (eds) Plasticity in plants. Society for Experimental Biology, Cambridge, pp 5–29
Guzman RS (1999) Multipurpose tree technologies for the Philippine uplands. In: Roshetko JM, Evans DO (eds) Domestication of agroforestry trees in Southeast Asia. Proceedings of a regional workshop held November 4–7, 1997, in Yogyakarta, Indonesia. Forest, Farm and Community Tree Research Reports, special issue. Taiwan Forestry Research Institute and Council of Agriculture, Taiwan, Republic of China; Winrock International, Morrilton, Arkansas, USA; and International Centre for Research in Agroforestry, Nairobi, Kenya, pp 27–31
Huxley PA (1996) Biological factors affecting form and function in woody/ non-woody plant mixtures. In: Ong CK, Huley PA (eds) Tree crop interactions: a physiological approach. CAB International/ ICRAF, Wallingford, Nairobi, pp 235–298
Huxley PA (1999) Tropical agroforestry. Blackwell Science, Oxford, p 371
Huxley PA, Van Eck WA (1974) Seasonal changes in growth and development of some woody perennial near Kampala. J Ecol 62:579–592
Janzen DH (1967) Synchronisation of sexual reproduction of trees within the dry season in Central America. Evolution 21:620–637
Kikim A, Yadava PS (2001) Phenology of tree species in subtropical forests of Manipur in north eastern India. Trop Ecol 42(2):269–276
Kushwaha CP, Singh KP (2005) Diversity of leaf phenology in a tropical deciduous forest in India. J Trop Ecol 21:47–56
Longman KA, Jenik J (1987) Tropical forest and its environment, 2nd edn. Longman Scientific and Technical, Harlow, UK, p 347
Morellato LPC, Camargo MGG, D’EçaNeves FF, Luize BG, Mantovani A, Hudson IL (2010) The influence of sampling method, sample size, and frequency of observations on plant phenological patterns and interpretation in tropical forest trees. In: Hudson IL, Keatley MR (eds) Phenological research, methods for environmental and climate change analysis. Springer, Netherlands, pp 99–121
Murali KS, Sukumar R (1994) Reproductive phenology of a tropical dry forest in Mudumalai, southern India. J Ecol 82:759–767
Nair PKR (2008) Agroecosystem management in the 21st century: it is time for a paradigm shift. J Trop Agric 46:1–12
Negi GCS (1995) Phenology, leaf and twig growth pattern and leaf nitrogen dynamics of some multipurpose tree species of Himalaya: implementations towards agroforestry practice. J Sustain Agric 6(4):43–60
Ong CK, Leakey RRB (1999) Why tree-crop interactions in agroforestry appear at odds with tree-grass interactions in tropical savannahs. Agrofor Syst 45:109–129
Rathcke B, Lacey EP (1985) Phenological patterns of terrestrial plants. Annu Rev Ecol Syst 16:179–214
Reich PB (1995) Phenology of tropical forests: patterns, causes, and consequences. Can J Bot 73:164–174
Richards PW (1952) The tropical rain forest. Cambridge University Press, London
Rivera G, Elliott S, Caldas LS, Nicolossi G, Coradin VTR, Borchert R (2002) Increasing day-length induces spring flushing of tropical dry forest trees in the absence of rain. Trees 16:445–456
Salinas-Peba L, Parra-Tabla V (2007) Phenology and pollination of Manilkara zapota in forest and homegardens. For Ecol Manag 248:136–142
Scheiner SM (1993) Genetics and evolution of phenotypic plasticity. Annu Rev Ecol Syst 24:35–68
Schongart JM, Piedade TF, Ludwigshausen S, Horna V, Worbes M (2002) Phenology and stem-growth periodicity of tree species in Amazonian floodplain forests. J Trop Ecol 18:581–597
Shukla RP, Ramakrishnan PS (1982) Phenology of trees in subtropical humid forest in north-eastern India. Vegetatio 49:103–109
Singh KP, Kushwaha CP (2005) Emerging paradigms of tree phenology in dry tropics. Curr Sci 89(6):964–975
Singh JS, Singh VK (1992) Phenology of seasonally dry tropical forest. Curr Sci 63:684–688
Sundarapandian SM, Chandrasekaran S, Swamy PS (2005) Phenological behaviour of selected tree species in tropical forests at Kodayar in the Western Ghats, Tamil Nadu, India. Curr Sci 88(5):805–810
Thakur PS, Kaur H (2000) Phenology of twelve multipurpose agroforestry tree species. In: Higher plants of Indian sub-continent, vol IX. Bishen Singh Mahendra Pal Singh, India, pp 207–215 (additional series of Indian Journal of Forestry, XI)
Thakur PS, Dutt V, Thakur A (2008) Impact of inter-annual climate variability on the phenology of eleven multipurpose tree species. Curr Sci 94(8):1053–1058
Wiersum KF (2004) Forest gardens as an intermediate land-use system in the nature-culture continuum: characteristics and future potential. Agrofor Syst 61:123–134
Acknowledgements
The authors would like to acknowledge the co-operation provided by the local community during the study. The authors thank the Tocklai Tea Research Association, Silcoorie, Assam for providing meteorological data. The authors also thank two anonymous reviewers for constructive comments on the manuscript.
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Das, T., Das, A.K. Vegetative and reproductive phenology of some multipurpose tree species in the homegardens of Barak Valley, northeast India. Int J Biometeorol 57, 185–196 (2013). https://doi.org/10.1007/s00484-012-0547-5
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DOI: https://doi.org/10.1007/s00484-012-0547-5