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4种木本植物在石漠化地区的生长状况及光合特性
引用本文:冯大兰,黄小辉,刘芸,朱恒星,向仲怀. 4种木本植物在石漠化地区的生长状况及光合特性[J]. 北京林业大学学报, 2015, 37(5): 62-69. DOI: 10.13332/j.1000--1522.20130531
作者姓名:冯大兰  黄小辉  刘芸  朱恒星  向仲怀
作者单位:西南大学生物技术学院家蚕基因组生物学国家重点实验室;重庆市林业科学研究院三峡库区森林生态保护与恢复重庆市市级重点实验室;重庆市林业科学研究院三峡库区森林生态保护与恢复重庆市市级重点实验室;西南大学资源环境学院;西南大学资源环境学院;重庆市林业科学研究院三峡库区森林生态保护与恢复重庆市市级重点实验室;西南大学生物技术学院家蚕基因组生物学国家重点实验室
基金项目:重庆市基本科研业务费,林业公益性行业科研专项,三峡库区森林生态保护与恢复重庆市市级重点实验室研究项目(2007CA1001)。
摘    要:以山桐子、桑树、无患子和皂荚为研究对象,比较几种木本植物在石漠化环境条件下的生长状况及光合特性。结果表明:桑树的成活率、株高增长率、地径增长率、根冠比、根干质量等生长指标最好,其次是山桐子和无患子,皂荚最差;桑树和山桐子的光合生产能力较强,无患子和皂荚相对较弱,但无患子的水分利用效率最高,其次是桑树、皂荚,山桐子最低。拟合各类植物Pn-PAR光响应曲线得出:桑树、山桐子和皂荚的最大净光合速率均在15 μmol/(m2·s)左右,高出无患子50%;各树种的表观量子效率大小顺序为:桑树皂荚无患子山桐子,暗呼吸速率为:桑树无患子皂荚山桐子,光补偿点为:无患子皂荚山桐子桑树,光饱和点为:山桐子桑树皂角无患子。可见,从生长状况和光合特性来看,4种木本植物在石漠化环境条件下的适应性为:桑树无患子山桐子皂荚。 

关 键 词:木本植物  石漠化地区  生长状况  光合特性
收稿时间:2013-12-24

Growth and photosynthetic characteristics of four woody plants in the rocky and desertified area
FENG Da-lan,HUANG Xiao-hui,LIU Yun,ZHU Heng-xing,XIANG Zhong-huai. Growth and photosynthetic characteristics of four woody plants in the rocky and desertified area[J]. Journal of Beijing Forestry University, 2015, 37(5): 62-69. DOI: 10.13332/j.1000--1522.20130531
Authors:FENG Da-lan  HUANG Xiao-hui  LIU Yun  ZHU Heng-xing  XIANG Zhong-huai
Affiliation:1.1 State Key Laboratory of Silkworm Biology, College of Biotechnology, Southwest University, Chongqing, 400715, P. R. China;2.2 Chongqing Key Laboratory of the Three Gorges Area Forest Ecology Protection and Restoration, Chongqing Academy of Forestry, Chongqing, 400036, P. R. China;3.3 College of Resources and Environment, Southwest University, Chongqing, 400715, P. R. China.
Abstract:We studied the growth status and photosynthetic characteristics of four kinds of woody plants, Idesia polycarpa, Morus alba, Sapindus mukurossi and Gleditsia sinensis, that were planted in the rocky and desertified area. 1) According to the growth indexes, such as survival rate, plant height growth rate, base diameter growth rate, dry root weight and root/shoot ratio, the growth status of M. alba was the best, followed by I. polycarpa and S. mukurossi, and G. sinensis in the last place. 2) The photosynthetic capabilities of M. alba and I. polycarpa were stronger that those of S. mukurossi and G. sinensis. As for the water use efficiency, S. mukurossi was the highest, followed by M. alba and G. sinensis, and, in the last place, I. polycarpa. 3 ) I. polycarpa, M. alba and G. sinensis showed the similar maximum net photosynthetic rate, about 15 μmol/(m2·s), which was 50% higher than that of S. mukurossi. The order of apparent quantum yield of the four plants, arranged from high to low, was M. alba, G. sinensis, S. mukurossi and I. polycarpa. The order of dark respiration rate, from high to low, was M. alba, S. mukurossi, G. sinensis and I. polycarpa. The light compensation point followed an order from high to low as S. mukurossi, G. sinensis I. polycarpa and M. alba, while the order of light saturation point was I. polycarpa, M. alba, G. sinensis and S. mukurossi. By comparing the growth status and photosynthetic characteristics of the four plants in the rocky and desertified area, we conclude that their adaptability to the environment follows the order from strong to weak as M. alba, S. mukurossi, I. polycarpa and G. sinensis.
Keywords:woody plants  growth  rocky and desertified area  photosynthetic characteristics
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