土壤质量的小尺度异质性影响克隆植物的光合效率和栖息地选择。
Small-scale heterogeneity in soil quality influences photosynthetic efficiency and habitat selection in a clonal plant.
作者信息
Roiloa S R, Retuerto R
机构信息
Ecology Unit, Faculty of Biology, Santiago de Compostela University, 15782, Santiago de Compostela, Spain.
出版信息
Ann Bot. 2006 Nov;98(5):1043-52. doi: 10.1093/aob/mcl185. Epub 2006 Sep 20.
BACKGROUND AND AIMS
In clonal plants, internode connections allow translocation of photosynthates, water, nutrients and other substances among ramets. Clonal plants form large systems that are likely to experience small-scale spatial heterogeneity. Physiological and morphological responses of Fragaria vesca to small-scale heterogeneity in soil quality were investigated, together with how such heterogeneity influences the placement of ramets. As a result of their own activities plants may modify the suitability of their habitats over time. However, most experiments on habitat selection by clonal plants have not generally considered time as an important variable. In the present study, how the foraging behaviour of clonal plants may change over time was also investigated.
METHODS
In a complex of environments with different heterogeneity, plant performance was determined in terms of biomass, ramet production and photosynthetic activity. To identify habitat selection, the number of ramets produced and patch where they rooted were monitored.
KEY RESULTS
Parent ramets in heterogeneous environments showed significantly higher maximum and effective quantum yields of photosystem II than parents in homogeneous environments. Parents in heterogeneous environments also showed significantly higher investment in photosynthetic biomass and stolon/total biomass, produced longer stolons, and had higher mean leaf size than parents in homogeneous environments. Total biomass and number of offspring ramets were similar in both environments. However, plants in homogeneous environments showed random allocation of offspring ramets to surrounding patches, whereas plants in heterogeneous environments showed preferential allocation of offspring to higher-quality patches.
CONCLUSIONS
The results suggest that F. vesca employs physiological and morphological strategies to enable efficient resource foraging in heterogeneous environments and demonstrate the benefits of physiological integration in terms of photosynthetic efficiency. The findings indicate that short-term responses cannot be directly extrapolated to the longer term principally because preferential colonization of high-quality patches means that these patches eventually show reduced quality. This highlights the importance of considering the time factor in experiments examining responses of clonal plants to heterogeneity.
背景与目的
在克隆植物中,节间连接允许光合产物、水分、养分及其他物质在分株间进行转运。克隆植物形成的庞大系统可能会经历小尺度的空间异质性。本研究调查了野草莓对土壤质量小尺度异质性的生理和形态响应,以及这种异质性如何影响分株的分布。由于植物自身的活动,它们可能会随着时间改变其栖息地的适宜性。然而,大多数关于克隆植物栖息地选择的实验通常没有将时间视为一个重要变量。在本研究中,还调查了克隆植物的觅食行为如何随时间变化。
方法
在具有不同异质性的复杂环境中,根据生物量、分株产生量和光合活性来测定植物性能。为了确定栖息地选择,监测了产生的分株数量及其生根的斑块。
主要结果
异质环境中的母分株比同质环境中的母分株表现出显著更高的光系统II最大和有效量子产率。异质环境中的母分株在光合生物量和匍匐茎/总生物量方面的投入也显著更高,产生的匍匐茎更长,平均叶面积比同质环境中的母分株更大。两种环境中的总生物量和子分株数量相似。然而,同质环境中的植物将子分株随机分配到周围斑块,而异质环境中的植物则将子分株优先分配到质量更高的斑块。
结论
结果表明,野草莓采用生理和形态策略在异质环境中实现高效的资源觅食,并证明了生理整合在光合效率方面的益处。研究结果表明,短期反应不能直接外推到长期,主要是因为高质量斑块的优先定殖意味着这些斑块最终质量会下降。这突出了在研究克隆植物对异质性响应的实验中考虑时间因素的重要性。
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