机构地区:[1]内蒙古农业大学生态环境学院,呼和浩特010018 [2]中国科学院植物研究所植被与环境变化国家重点实验室,北京100093
出 处:《植物生态学报》2011年第6期632-640,共9页Chinese Journal of Plant Ecology
基 金:"973"项目北方草地与农牧交错带生态系统维持与适应性管理的科学基础(2007CB106800);植被与环境变化国家重点实验室资助
摘 要:土壤有效磷(P)含量低是限制植物生长的主要因素之一。根形态变化和根系大量分泌以柠檬酸为主的有机酸是植物适应土壤P素缺乏的重要机制。以广泛分布于我国北方的重要豆科牧草黄花苜蓿(Medicago falcata)和豆科模式植物蒺藜苜蓿(M.truncatula)为材料,采用砂培方法,研究了低P胁迫对其植株生长、根系形态和柠檬酸分泌的影响,对比了两种苜蓿适应低P胁迫的不同策略。结果表明:1)低P处理显著抑制了蒺藜苜蓿与黄花苜蓿的地上部生长,而对地下部生长影响较小,从而导致根冠比增加。2)低P胁迫显著降低黄花苜蓿的总根长和侧根长,而对蒺藜苜蓿的上述根系形态指标没有显著影响。3)低P胁迫促进两种苜蓿根系的柠檬酸分泌,无论是在正常供P还是低P胁迫条件下,黄花苜蓿根系分泌柠檬酸量显著高于蒺藜苜蓿根系。上述结果表明,黄花苜蓿和蒺藜苜蓿对低P胁迫的适应策略不同,低P胁迫下,黄花苜蓿主要通过根系大量分泌柠檬酸,活化根际难溶态P来提高对P的吸收,而蒺藜苜蓿维持较大的根系是其适应低P胁迫的主要策略。Aims Phosphorus (P) is an essential macronutrient for plant growth and development. Phosphorus deficiency is one of the major constraints limiting plant growth in many types of soils. To cope with P deficiency, plants have evolved numerous strategies including changes in root architecture and exudation of organic acids in general and citrate in particular to maximize P uptake and mobilize soil P. To unravel the adaptive strategies of Medicago falcata, a native legume species in temperate grassland in northern China, and M. truncatula, a legume model plant, to P deficiency, we compared biomass, root traits and exudation of citrate of the two species under two levels of P supply. Methods Pot experiments were conducted to compare biomass, root traits and exudation of citrate in M. falcata and M. truncatula under two levels of P supply (500 and 5 μmol·L–1). Important findings Shoot biomass was reduced while root biomass was not affected in both M. falcata and M. truncatula when exposed to P-deficient medium, leading to an increase in root/shoot ratio. The lateral root length and total root length of M. falcata seedlings grown in P-deficient medium were markedly reduced compared to those grown in P-sufficient medium, while no significant effect of P deficiency on these parameters in M. truncatula seedlings was observed. A greater amount of citrate was exuded from M. falcata roots than M. truncatula roots under P-sufficient conditions. Citrate exudation from both species was stimulated in response to P deficiency with the stimulatory effect being much more evident in M. falcata than in M. truncatula. Taken together, these findings reveal that M. falcata and M. truncatula have developed different strategies to cope with P deficiency. Medicago falcata had a small root system and exuded large amount of citrate to mobilize soil P bound to soil particles. In contrast, M. truncatula had limited capacity to mobilize soil P by releasing citrate, but it maintained a large root system to more effectively explore spar
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