Plant interactions and ecosystem function in wetlands

湿地植物相互作用和生态系统功能

• 批准号: RGPIN-2014-05875
• 负责人: Brisson, Jacques
• 金额: $ 2.48万
• 依托单位: Université de Montréal
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2016
• 资助国家: 加拿大
• 起止时间: 2016-01-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=611897
• 关键词: Plant; interactions; ecosystem; function; wetlands

Over the last two decades, there has been accumulating evidence that the loss of biodiversity results in a reduction of the efficiency with which communities capture resources, produce biomass and recycle nutrients. Yet, there is an undisputed over-representation of studies on grasslands and primary production measures in the literature on this subject, and despite the recognized importance of wetlands in global biochemical cycles, our understanding of the fundamental relation between plant diversity and ecological attributes and function is still limited for this system. One property that may set wetlands apart in their relation between diversity and functions is the common, local domination of a single – often exotic – vascular plant species. The negative impact of invasive macrophytes on wetland diversity is well known, but it is unclear whether it is accompanied by a decrease in ecosystem processes and services. My research program focuses on competitive interactions between highly productive plant species and the impact of the loss of diversity caused by invasive species on ecosystem functions and services. For the current proposal, my students and I will test whether 1) ecological services in wetlands, as measured by nutrient cycles and water purification, increase with plant diversity due to complementarity effects and whether 2) expansion of competitive clonal species in wetlands reduces ecological functions and attributes associated with ecological services. For the first objective, we will evaluate the effect of plant diversity and composition on nutrient assimilation, mineralization and microbial activity using treatment wetland mesocosms as model ecosystems, with varying numbers of plant species and under several different nutritional conditions. A first experiment will use connected basins of Phalaris arundinacea and Phragmites australis, two wetland macrophytes that differ in root system architecture and seasonal activity. In a second experiment, we will use combinations of 1 to 4 floating plant species in free water wetland mesocosms. In both experiments, water quality parameters, plant parameters and microbial activity will be monitored to test the effect of plant diversity and combination on wetland processes. For the second objective, we will monitor ecological attributes and plant spatial dynamics in a large wetland area of southern Quebec, within and outside of dense, nearly monospecific patches of clonal species (Phragmites australis var. australis, Phragmites australis var. americana, Phalaris arundinacea). To complement the field survey, we will measure the effect of plant interaction on ecological attributes using an original mesocosm experiment designed to reproduce competition between wetland plant species with clonal growth. Results of our study will allow us to understand, at the fundamental level, how plant interactions and diversity influence wetland ecosystem processes. Furthermore, our findings will have implications for vegetation management, wetland restoration and constructed wetlands used for wastewater treatment.

过去二十年来，越来越多的证据表明，生物多样性的丧失导致社区获取资源、生产生物量和回收养分的效率降低。然而，有一个无可争议的过度代表性的草地和初级生产措施的研究，在这个问题上的文献，尽管公认的湿地在全球生物化学循环的重要性，我们的理解之间的基本关系植物多样性和生态属性和功能仍然是有限的这个系统。一个可能使湿地在其多样性和功能之间的关系上与众不同的特性是，一种单一的、往往是外来的维管植物物种在当地占主导地位。入侵水生植物对湿地多样性的负面影响是众所周知的，但不清楚它是否伴随着生态系统过程和服务的减少。 我的研究计划侧重于高产植物物种之间的竞争性相互作用，以及入侵物种对生态系统功能和服务造成的多样性损失的影响。对于目前的提案，我和我的学生将测试1）湿地的生态服务，通过营养循环和水净化来衡量，是否由于互补效应而随着植物多样性的增加而增加，以及2）湿地中竞争性克隆物种的扩张是否会降低与生态服务相关的生态功能和属性。 对于第一个目标，我们将评估植物多样性和组成的营养同化，矿化和微生物活性的影响，使用处理湿地围隔生态系统作为模型，不同数量的植物物种和几种不同的营养条件下。第一个实验将使用连接的盆草和芦苇，两个湿地水生植物，不同的根系结构和季节性活动。在第二个实验中，我们将在自由水湿地生态系统中使用1到4种漂浮植物的组合。在这两个实验中，将监测水质参数、植物参数和微生物活性，以测试植物多样性和组合对湿地过程的影响。 对于第二个目标，我们将监测生态属性和植物的空间动态在一个大的湿地面积南部魁北克，内外密集，近单种的克隆物种（芦苇变种。australis、芦苇Phragmites australis var. americana，Phalaris arundinacea）。为了补充实地调查，我们将测量植物相互作用对生态属性的影响，使用原始的围隔实验，旨在重现克隆生长的湿地植物物种之间的竞争。 我们的研究结果将使我们能够了解，在基本水平上，植物的相互作用和多样性如何影响湿地生态系统的过程。此外，我们的研究结果将对植被管理，湿地恢复和用于污水处理的人工湿地产生影响。