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首页> 外文期刊>Agronomy Journal >Relevance of Plant Functional Types based on Leaf Dry Matter Content for Assessing Digestibility of Native Grass Species and Species-Rich Grassland Communities in Spring
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Relevance of Plant Functional Types based on Leaf Dry Matter Content for Assessing Digestibility of Native Grass Species and Species-Rich Grassland Communities in Spring

机译:基于叶干物质含量的植物功能类型与春季评估原生草种和丰富种草群落的消化率的相关性

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Little research has been done on the nutritive value of species-rich permanent grasslands in spite of their recognized ecological value. We proposed a new method based on the concept of plant functional type (PFT) to rank grass species and grasslands according to the organic matter digestibility (OMD) of the plant material. The PFTs are based on leaf dry matter content (LDMC). The objectives of this study were: (i) to see if there were significant differences between PFTs for the three components of plant OMD (leaf and stem digestibility and leaf proportion [L%]) in a set of 19 grasses growing in pure stand under two contrasting levels of N supply (Exp. 1); (ii) to see whether grassland vegetation types (GVT) differing in their PFT composition have different digestibility values; investigations being made on the leaf, stem, and whole plant OMD of five and eight plant communities (Exp. 2 and 3, respectively). In pure grass stands (Exp. 1) as well as in grassland communities (Exp. 2 and 3), there was a significant effect of PFT or GVT on leaf and stem OMD. The greatest differences in L% were observed when there were large differences in nutrient availability. At the leafy stage, the whole plant digestibility was higher for GVTs composed of PFTs with a low LDMC. However around the time of flowering there was a convergence in whole-plant OMD between all grassland communities because L% decreased faster for those composed of PFTs having the lowest LDMC. At this stage, plots with low LDMC had higher plant component digestibility but lower L%. Our results show that the decrease in plant digestibility over time is the result of two processes, an ontogenic one, due to a decrease in leaf proportion, and an ageing one. For the latter, we show that PFT had an effect of leaf and stem digestibility at an early stage of plant development, then they decreased at a rate depending on plant development. Both processes explained the convergence between GVTs in plant digestibility at flowering time.
机译:尽管物种丰富的永久草地具有公认的生态价值,但对其营养价值的研究很少。我们提出了一种基于植物功能类型(PFT)概念的新方法,可以根据植物材料的有机物消化率(OMD)对草种和草原进行排名。 PFT基于叶片干物质含量(LDMC)。这项研究的目的是:(i)在纯林下生长的19棵草中,观察植物OMD的三个组成部分(叶和茎的消化率和叶的比例[L%])的PFT之间是否存在显着差异。氮供应的两个相对水平(实验1); (ii)观察其PFT组成不同的草原植被类型(GVT)是否具有不同的消化率值;对五个和八个植物群落的叶子​​,茎和整个植物的OMD进行了调查(分别为实验2和3)。在纯草林(实验1)以及草地群落(实验2和3)中,PFT或GVT对叶片和茎部OMD有显着影响。当养分利用率差异很大时,L%的差异最大。在绿叶阶段,由低LDMC的PFT组成的GVT的全株消化率更高。然而,在开花期前后,所有草地群落之间的全植物OMD趋于一致,因为由LMC最低的PFT组成的那些植物的L%下降更快。在此阶段,LDMC低的地块具有较高的植物成分消化率,但L%较低。我们的结果表明,随着时间的流逝,植物消化率的下降是两个过程的结果,一个是由于叶片比例降低而导致的个体发育过程,另一个是衰老过程。对于后者,我们证明了PFT在植物发育的早期对叶和茎的消化率有影响,然后根据植物的发育它们以一定的速率下降。这两个过程都解释了开花期植物消化率之间的GVT趋同。

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