Altitudinal gradient affects on trees and stand attributes in Mount Ciremai National Park, West Java, Indonesia
Downloads
Downloads
Acharya, B.K., B. Chettri, and L. Vijayan. (2011). Distribution pattern of trees along an elevation gradient of Eastern Himalaya, India. Acta Oecologica, 37, 329-336.
Aiba, S–I., and K. Kitayama. (1999). Structure, composition and species diversity in an altitude-substrate matrix of rain forest tree communities on Mount Kinabalu, Borneo. Plant Ecology, 140, 139-157.
Alexander, J.M., C. Kueffer, C.C. Daehler, P.J. Edwards, A. Pauchard, T. Seipel, and MIREN Consortium. (2011). Assembly of nonnative floras along elevational gradients explained by directional ecological filtering. Proceedings of the National Academy of Sciences, 108(2), 656-661.
Alves, L.F., S.A. Vieira, M.A. Scaranello, P.B. Camargo, F.A.M. Santos, C.A. Joly, and L.A. Martinelli. (2010). Forest structure and live aboveground biomass variation along an elevational gradient of tropical Atlantic moist forest (Brazil). Forest Ecology and Management, 260, 679-691.
Aiba, S-I., M. Takyu, and K. Kitayama. (2005). Dynamics, productivity, and species richness of tropical rainforests along elevational and edaphic gradients on Mount Kinabalu, Borneo. Ecological Research, 20, 279-286.
Behera, M.D. and S.P.S. Kushwaha. (2007). An analysis of altitudinal behavior of tree species in Subansiri district, Eastern Himalaya. Biodiversity and Conservation, 16, 1851-1865.
Bismark, M., R. Sawitri, and Eman. (2007). Pengelolaan dan zonasi daerah penyangga Taman Nasional Gunung Ciremai, Kabupaten Kuningan, Jawa Barat [The management and zonation of buffer zone at Gunung Ciremai National Park, Kuningan Region, West Java]. Jurnal Penelitian Hutan dan Konservasi Alam, 5(4), 467 – 483.
Cannon, C.H., R.M. Morley, and A.B.G. Bush. (2008). The current refugial rainforests of Sundaland are unrepresentative of their biogeographic past and highly vulnerable disturbance. Proceedings of the National Academy of Sciences 106(27), 11188-11193.
Chave, J., C. Andalo, S. Brown, M.A. Cairns, J.Q. Chambers, D. Eamus, H. Folster, F. Fromard, N. Higuchi, T. Kira, J.-P. Lescure, B.W. Nelson, H. Ogawa, H. Puig, B. Riera, and T. Yamakura. (2005). Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Oecologia, 145, 87 – 99.
Chave, J., H.C. Muller-Landau, T.R. Baker, T.A. Easdale, H.T. Steege, and C.O. Webb. (2006). Regional and phylogenetic variation of wood density across 2456 Neotropical tree species. Ecological Applications, 16(6), 2356-2367.
Culmsee, H., and R. Pitopang. (2009). Tree diversity in sub-montane and lower montane primary rain forests in Central Sulawesi. Blumea, 54, 119-123.
Givnish, T.J. (1999). On the causes of gradients in tropical tree diversity. Journal of Ecology, 87, 193-210.
Gunawan, H. (2007). Kondisi vegetasi hutan pinggiran dan implikasi pengelolaannya di Taman Nasional Gunung Ciremai [Vegetation feature of fringing forest and the implication on its management at Mount Ciremai National Park]. Info Hutan, 4(5), 451 – 262.
Irawan, D.E., D.J. Puradimaja, S. Notosiswoyo, and P. Soemintadiredja. (2009). Hydrogeochemistry of volcanic hydrogeology based on cluster analysis of Mount Ciremai, West Java, Indonesia. Journal of Hydrology, 376, 221 – 234.
Junaedi, D.I. (2008). Keragaman komunitas tumbuhan di Taman Nasional Gunung Ciremai [The diversity of plant communities in Mount Ciremai National Park]. Buletin Kebun Raya Indonesia, 2(11), 25 – 32.
Kent, M. and P. Coker. (1992). Vegetation description and analysis: A practical approach. West Sussex, England: John Wiley & Sons Ltd.
Kitayama, K. (1992). An altitudinal transect study of the vegetation on Mount Kinabalu, Borneo. Vegetatio 102, 149-171.
Kraft, N.J.B., L.S. Comita, J.M. Chase, N.J. Sanders, N.G. Swenson, T.O. Crist, J.C. Stegen, M. Vellend, B. Boyle, M.J. Anderson, H.V. Cornell, K.F. Davies, A.L. Freestone, B.D. Inouye, S.P. Harrison, and J.A. Myers. (2011). Disentangling the drivers of BETA diversity along latitudinal and elevational gradients. Science, 333, 1755-1758.
Kromer, T., A. Acebey, J. Kluge, and M. Kessler. (2013). Effects of altitude and climate in determining elevational plant species richness patterns: A case study from Los Tuxtlas, Mexico. Flora, 208, 197-210.
Leuschner, C., G. Moser, C. Bertsch, M. Roderstein, and D. Hertel. (2007). Large altitudinal increase in tree root/shoot ratio in tropical mountain forests of Ecuador. Basic and Applied Ecology, 8, 219-230.
Malhi, Y., D. Wood, T.R. Bakers, J. Wright, O.L. Phillips, T. Cochrane, P. Meir, J. Chave, S. Almeida, L. Arroyo, N. Higuch, T.J. Killeen, S.G. Laurance, W.F. Laurance, S.L. Lewis, A. Monteagudo, D.A. Neill, P.N. Vargas, N.C.A. Pitman, C.A. Quesada, R. Salomao, J.N.M. Silva, A.T. Lezama, J. Terborgh, R.V. Martinez, and B. Vinceti. (2006). The regional variation of aboveground live biomass in old-growth Amazonian forests. Global Change Biology, 12(7), 1107-1138.
Malhi, Y., M. Silman, N. Salinas, M. Bush, P. Meir, and S. Saatchi. (2010). Introduction: Elevation gradients in the tropics: laboratories for ecosystem ecology and global change research. Global Change Biology, 16, 3171-3175.
Nakashizuka, T., Z. Yusop, and A.R. Nik. (1992). Altitudinal zonation of forest communities in Selangor, Peninsular Malaysia. Journal of Tropical Forest Science, 4(3), 233-244.
Nishimura, S., T. Yoneda, S. Fujii, E. Mukhtar, H. Abe, D. Kubota, R. Tamin, and H. Watanabe. (2006). Altitudinal zonation of vegetation in the Padang region, West Sumatra, Indonesia. Tropics, 15(2), 137-152.
Ohsawa, M. (1991). Structural comparison of tropical montane rain forest along latitudinal and altitudinal gradients in south and east Asia. Vegetatio, 97, 1-10.
Oommen, M.A. and K. Shanker. (2005). Elevational species richness patterns emerge from multiple local mechanisms in Himalayan woody plants. Ecology, 86(11), 3039-3047.
Pratomo, I. (2008). Kegiatan gunungapi Ciremai Jawa Barat dan pengaruhnya terhadap lingkungan di sekitarnya [The activity of Ciremai mountain and the impact eruption at the surrounding area]. Journal Biologi Indonesia, 4(5), 261-278.
Rahbek, C. (1995). The elevational gradients of species richness: a uniform pattern? Ecography, 182, 200-205.
Rengel, T.F.L.V.B. and J.A.F. Diniz-Filho. (2005). An evolutionary tolerance model explaining spatial patterns in species richness under environmental gradients and geometric constraints. Ecography, 28, 253-263.
Ren, H.-B, S.-K. Niu, L.-Y. Zhang, and K.-P. Ma. (2006). Distribution of vascular plant species richness along an elevational gradient in the Dongling Mountains, Beijing, China. Journal of Integrative Plant Biology, 48(2), 153-160.
Riyanto, A. (2011). Herpetofaunal community structure and habitat association in Gunung Ciremai National Park, West Java, Indonesia. Biodiversitas, 12(1), 38 – 44.
Romdal, T.S. and J.-A. Grytnes. (2007). An indirect area effect on elevation species richness patterns. Ecography, 30, 440-448.
Samodra, H. (2008). Geologi batuan dasar Gunung Ciremai Jawa Barat [The stone geology structure of Ciremai Mountain West Java]. Jurnal Biologi Indonesia, 4(5), 279 – 287.
Siebert, S.F. (2005). The abundance and distribution of rattan over an elevation gradient in Sulawesi, Indonesia. Forest Ecology and Management, 210, 143-158.
Slik, J.W.F. (2006). Estimating species-specific wood density from the genus average in Indonesian trees. Journal of Tropical Ecology, 22, 481 – 482.
Slik, J.W.F., N. Raes, S.-A, Aiba, F.Q. Brearley, C.H. Cannon, E. Meijaard, H. Nagamasu, R. Nilus, G. Paoli, A.D. Poulsen, D. Sheil, E. Suzuki, J.L.C.H. can Valkenburg, C.O. Webb, P. Wilkie, and S. Wulffraat. (2009). Environmental correlates for tropical tree diversity and distribution patterns in Borneo. Diversity and Distribution 15, 523-532.
Slik, J.W.F., S-I. Aiba, F.Q. Brearley, C.H. Cannon, O. Forshed, K. Kitayama, H. Nagamasu, R. Nilus, J. Payne, G. Paoli, A.D. Poulsen, N. Raes, D. Sheil, K. Sidiyasa, E. Suzuki, and J.L.C.H. van Valkenburg. (2010). Environmental correlates of tree biomass, basal area, wood specific gravity and stem density gradients in Borneo’s tropical forests. Global Ecology and Biogeography, 19(1), 50-60.
Slik, J.W.F., S.I.Aiba, M. Bastian, F.Q. Brearley, C.H. Cannon, K.A.O. Eichhorn, G. Fredriksson, K. Kartawinata, Y. Laumonier, A. Mansor, A. Marjokorpi, E. Meijaard, R.J. Morley, H. Nagamasu, R. Nilus, E. Nurtjahya, J. Payne, A. Permana, A.D. Poulsen, N. Raes, S. Riswan, C.P. van Schaik, D. Sheil, K. Sidiyasa, E. Suzuki, J.L.C.H. van Valkenburg, C.O. Webb, S. Wich, T. Yoneda, R. Zakaria, and N. Zweifel. (2011). Soils on exposed Sunda Shelf shaped biogeographic patterns in the equatorial forests of Southeast Asia. Proceedings of the National Academy of Sciences, 108(30), 12343-12347.
The Plant List (2010) Version 1. http://www.theplantlist.org/ (Accessed March – May 2013).