植物对 N 源偏好的生态意义和复杂性。
Ecological significance and complexity of N-source preference in plants.
机构信息
Department of Biological Sciences, University of Toronto, 1265 Military Trail, Toronto, Ontario, Canada M1C 1A4.
出版信息
Ann Bot. 2013 Oct;112(6):957-63. doi: 10.1093/aob/mct157. Epub 2013 Jul 24.
Abstract
BACKGROUND
Plants can utilize two major forms of inorganic N: NO3(-) (nitrate) and NH4(+) (ammonium). In some cases, the preference of one form over another (denoted as β) can appear to be quite pronounced for a plant species, and can be an important determinant and predictor of its distribution and interactions with other species. In many other cases, however, assignment of preference is not so straightforward and must take into account a wide array of complex physiological and environmental features, which interact in ways that are still not well understood.
SCOPE
This Viewpoint presents a discussion of the key, and often co-occurring, factors that join to produce the complex phenotypic composite referred to by the deceptively simple term 'N-source preference'.
CONCLUSIONS
N-source preference is much more complex a biological phenomenon than is often assumed, and general models predicting how it will influence ecological processes will need to be much more sophisticated than those that have been so far developed.
摘要
背景
植物可以利用两种主要的无机氮形式:NO3-(硝酸盐)和 NH4+(铵盐)。在某些情况下,一种形式对另一种形式的偏好(表示为β)对一个植物物种来说可能非常明显,并且可以成为其分布及其与其他物种相互作用的重要决定因素和预测因素。然而,在许多其他情况下,偏好的分配并不那么简单,必须考虑到一系列复杂的生理和环境特征,这些特征以尚未完全理解的方式相互作用。
范围
本观点讨论了关键的、通常同时发生的因素,这些因素结合在一起产生了被看似简单的术语“氮源偏好”所掩盖的复杂表型综合。
结论
氮源偏好比人们通常假设的更为复杂的生物学现象,预测它将如何影响生态过程的一般模型将需要比迄今为止开发的模型更加复杂。
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