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首页> 外文期刊>Plant Ecology >Do plant functional types based on leaf dry matter content allow characterizing native grass species and grasslands for herbage growth pattern?
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Do plant functional types based on leaf dry matter content allow characterizing native grass species and grasslands for herbage growth pattern?

机译:基于叶片干物质含量的植物功能类型是否可以表征原生草种和草原的牧草生长方式?

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Few studies have focused on vegetation characteristics of importance to feeding domestic herbivores, mainly the seasonal pattern of herbage growth at spring. Our objective is to establish and to evaluate a simple method of ranking grassland communities for these characteristics. We combined approaches at plant species level (comparison of grass species growing in a pure stand) and plant community level (comparison of grasslands differing mainly in their nutrient availability). Firstly, we ask if the ranking of species by leaf dry matter content (LDMC), a functional parameter used to assess the plant strategy for resource acquisition and use, is consistent with a classification of the species using three plant features that determine plant growth pattern at spring (beginning and ending of stem elongation, leaf lifespan). Secondly, for three networks of natural grasslands, we test whether there is consistency when ranking them by their dominant plant functional type (PFT A, B or C) established previously at species level, and by the three agronomic characteristics. For species growing in pure stands, there was a significant effect of PFT for the three plant features. For species having a low LDMC (A and B PFT), there were earlier stem elongation in the season, earlier flowering and shorter leaf lifespan. The opposite was observed for species having a high LDMC (C and D PFT). For grassland communities dominated by A-PFT, the ceiling yield for leaves and stems occurred earlier in spring than for those dominated by C-PFT. Results were consistent at plant and community levels. Scaling up from plant to community was well mediated by PFT. Plant features which characterize species for resource acquisition and use are consistent with herbage growth patterns at plant community level. These results show that herbage growth pattern and composition depend on PFTs and that knowing the PFT dominance is of great importance to plan the use of grasslands. We can expect to use the PFT approach to perform vegetation diagnosis at field level when the objective is to rank grassland communities for their agronomic characteristics.
机译:很少有研究集中在对饲喂食草动物具有重要意义的植被特征上,主要是春季牧草生长的季节性模式。我们的目标是建立和评估一种针对这些特征对草地群落进行排名的简单方法。我们将植物物种水平(纯林中生长的草种的比较)和植物群落水平(主要是养分利用率不同的草地)进行了组合。首先,我们询问通过叶片干物质含量(LDMC)对物种进行排名,LDMC是用于评估植物资源获取和使用策略的功能参数,是否与使用确定植物生长方式的三种植物特征对物种进行分类一致在春季(茎伸长的开始和结束,叶片寿命)。其次,对于三个天然草地网络,我们测试了按物种级别先前建立的主要植物功能类型(PFT A,B或C)以及这三个农艺特征对它们进行排序时是否存在一致性。对于纯林中生长的物种,PFT对于这三种植物特征具有显着影响。对于低LDMC(A和B PFT)的物种,该季节的茎伸长较早,开花较早,叶片寿命较短。对于具有高LDMC(C和D PFT)的物种,则观察到相反的情况。对于以A-PFT为主的草原社区,叶片和茎的最高产量发生在春季,早于以C-PFT为主的草原。在工厂和社区一级的结果是一致的。 PFT很好地介导了从植物到社区的扩展。表征资源获取和使用的物种的植物特征与植物群落水平上的草本植物生长模式一致。这些结果表明,牧草的生长方式和组成取决于PFT,并且了解PFT的优势对于规划草地的使用非常重要。当目标是对草地群落的农艺特征进行排名时,我们可以期望使用PFT方法在田间进行植被诊断。

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