期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

Patterns of tree buttressing at Lawachara National Park, Bangladesh

Patterns of tree buttressing at Lawachara National Park, Bangladesh
下载PDF
导出
摘要 We describe patterns of buttress formation and development in eleven tree species at Lawachara National Park, Bangladesh. Forty-five percent of trees of these 11 species had buttresses. Artocarpus chaplasha Roxb. showed maximum (87%) buttress formation, whereas Alstonia scholaris (L.) R. Br. did not show any buttress. Buttresses were recorded in 20%-40% of trees of six species and 40%-60% of trees in three species. Mean length and height of buttress varied among the species and ranged from 0.37-4.37 m and 0.71-2.13 m, respectively. Buttress height, mean buttress length, total buttress length, and total length plus length of secondaries increased with DBH (diameter at breast height) and tree height. Buttress number did not increase with DBH or tree height. Under-storey and mid-canopy trees produced less developed buttresses than did emergent trees (p〈0.01). Wood density showed moderate effects on buttress characters (p〈0.05), while the slope of the land did not. Canopy category was a primary regulating factor for tree buttressing, suggesting that buttresses are mechanical adaptations of trees to counter physical stresses. We describe patterns of buttress formation and development in eleven tree species at Lawachara National Park, Bangladesh. Forty-five percent of trees of these 11 species had buttresses. Artocarpus chaplasha Roxb. showed maximum (87%) buttress formation, whereas Alstonia scholaris (L.) R. Br. did not show any buttress. Buttresses were recorded in 20%-40% of trees of six species and 40%-60% of trees in three species. Mean length and height of buttress varied among the species and ranged from 0.37-4.37 m and 0.71-2.13 m, respectively. Buttress height, mean buttress length, total buttress length, and total length plus length of secondaries increased with DBH (diameter at breast height) and tree height. Buttress number did not increase with DBH or tree height. Under-storey and mid-canopy trees produced less developed buttresses than did emergent trees (p〈0.01). Wood density showed moderate effects on buttress characters (p〈0.05), while the slope of the land did not. Canopy category was a primary regulating factor for tree buttressing, suggesting that buttresses are mechanical adaptations of trees to counter physical stresses.
作者 Md. A bu Hanifa Mehedi Chandan Kundu Md. Qumruzzaman Chowdhury
机构地区 Department of Forestry and Environmental Science
出处 《Journal of Forestry Research》 SCIE CAS CSCD 2012年第3期461-466,共6页 林业研究(英文版)
关键词 buttresses tree architecture canopy category slope of the ground wood density buttresses tree architecture canopy category slope of the ground wood density
分类号 S718.4 [农业科学—林学]
  • 相关文献

参考文献23

  • 1Baker HG. 1965. The evolution of the cultivated kapok tree: a probable West African product. In: D. Brokensha (ed), Ecology and economic development in tropical Africa Berkeley: Institute for International Studies, University of California, pp. 185-215.
  • 2Chapman CA, Kaufman L, Chapman LJ. 1998. Buttress formation and directional stress experienced during critical phases of tree development. Journal of Tropical Ecology, 14: 341-349.
  • 3Chave J, Muller-Landu HC, Baker TR, Easedale TA, Steege HT, Webb CO. 2006. Regional and phylogenetic variation of wood density across 2456 neotropical tree species. Ecological Application, 16: 2356-2367.
  • 4Chowdhury Q, Ishiguri F, Iizuka K, Hiraiwa T, Matsumoto K, Takashima Y, Yokota S, Yoshizawa N. 2009. Wood property variation in Acacia auriculiformis growing in Bangladesh. Wood and Fiber Science, 41(4): 359-365.
  • 5Crook MJ, Ennos AR, Banks JR. 1997. The function of buttress roots: a comparative study of the anchorage systems of buttressed (Aglaia and Nephelium ramboutan species) and non-buttressed (Mal/otus wrayi) tropical trees. Journal of Experimental Botany, 48(9): 1703-1716.
  • 6Ennos AR. 1993. The function and formation of buttresses. Trends in Ecology and Evolution, 8(10): 350-351.
  • 7Feeroz MM, Islam MA. 2000. Primates of the West Bhanugach Forest Reserve: major threats and management plan. In: MF Ahmed (ed). Bangladesh Environment 2000. Dhaka: BAPA Bangladesh Poribesh Andolon, pp. 239-253.
  • 8Gartner BL, Moore JR, Gardiner BA. 2004. Gas in sterns: abundance and potential consequences for tree biomechanics. Tree Physiology, 24(11): 1239-1250.
  • 9Kaufman L. 1988. The role of developmental crises in the formation of buttresses: a unified hypothesis. Evolutionary Trends in Plants, 21: 39-51.
  • 10Kollman FFP, Cote WA. 1984. Principles of Wood science and Technology, Volume I: Solid wood. Heidelberg, New York, Tokyo: Springer-Verlang, Berlin, p. 592.
Journal of Forestry Research
2012年 第3期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部