Mycorrhizal Regulation of Ecosystem Response to Chronic Nitrogen Deposition

生态系统对慢性氮沉积响应的菌根调节

基本信息

批准号：
0134748
负责人：
Hormoz BassiriRad
金额：
$ 49.9万
依托单位：
University of Illinois at Chicago
依托单位国家：
美国
项目类别：
Continuing Grant
财政年份：
2002
资助国家：
美国
起止时间：
2002-02-01 至 2008-01-31
项目状态：
已结题

来源：
https://www.nsf.gov/awardsearch/showAward?AWD_ID=0134748&HistoricalAwards=false
关键词：
Mycorrhizal Regulation Ecosystem Response Chronic

项目摘要

Readily usable forms of nitrogen are being deposited from the atmosphere in much greater quantities than plants can use. This is mainly nitrate nitrogen produced by the combustion of fossil fuels in urban areas, but some agricultural areas are subject to high deposition of ammonium nitrogen. Effects of atmospheric nitrogen deposition were first noticed in Scandinavia, the Netherlands, and, in the U.S., in the industrial Northeast where it is associated with the death of trees, particularly conifers. These trees showed characteristic responses which included high nitrogen in their needles and loss of fine roots. Currently high levels of atmospheric nitrogen deposition are spreading to other parts of the U.S. including the Los Angeles Basin and the Colorado Front Range. After many years of nitrogen additions many forests show evidence of reaching a point where no further nitrogen can be taken up, tree mortality increases, and nitrate nitrogen leaches into the water table. Initially, plants were thought to take up and store most depositional nitrogen in forests. But studies using nitrogen isotopes as tracers suggested that the nitrogen was stored in the forest floor. This focused attention on two groups of beneficial fungi that occupy forest floors: ecto- and endomycorrhizal fungi. Both groups function as supplementary root systems for plants, and ectomycorrhizal fungi may store depositional nitrogen in sheaths of fungal tissue covering root tips of conifers and oaks. This project asks three kinds of questions in order to learn the role of ectomycorrhizal fungi in nitrogen storage and tree mortality. First, are species numbers and relative abundance of ecto- and endomycorrhizal fungi affected by chronic atmospheric nitrogen deposition? Second, is the metabolic activity of ecto- and endomycorrhizal fungi affected by atmospheric N deposition? Is the ability of ectomycorrhizal fungi to store N decreased when numbers of fine roots decline? Third, does atmospheric nitrogen deposition have the same effect on growth and mortality of ectomycorrhizal as endomycorrhizal trees? To answer these questions the investigators will quantify mycorrhizal and plant responses across the nitrogen deposition gradient in the Chicago metropolitan area in a five-year study. The Chicago metropolitan area is suitable for asking these questions because chronic nitrogen deposition increases 24% along a west to east gradient on similar soils and vegetation. At each site the investigators will use red oak (Quercus rubra, ectomycorrhizal) and sugar maple (Acer saccharum, endomycorrhizal) to test whether nitrogen alters (a) the species and abundance of ecto- and endomycorrhizal fungi, (b) the metabolic activity and nitrogen storage ability of ecto- and endomycorrhizal fungi, (c) the specific rates of ammonium and nitrate uptake by ecto- and endomycorrhizal roots, (d) survivorship, growth, and N leaching from soil under red oak and sugar maple seedlings at ambient and twice-ambient nitrogen deposition rates ranging from 17 to 42 kg ha-1 year-1.

从大气中沉积的易于使用的氮的数量远多于植物可以使用的数量。这主要是城市地区化石燃料燃烧产生的硝态氮，但一些农业地区的铵态氮沉积量较高。大气氮沉降的影响首先在斯堪的纳维亚半岛、荷兰和美国东北部工业区被发现，那里的氮沉降与树木（尤其是针叶树）的死亡有关。这些树木表现出特征性的反应，包括针叶中的高氮和细根的损失。目前，高水平的大气氮沉降正在蔓延到美国其他地区，包括洛杉矶盆地和科罗拉多州前沿山脉。经过多年的氮添加，许多森林显示出已经达到了无法再吸收氮的程度，树木死亡率增加，硝态氮渗入地下水位。最初，人们认为植物吸收并储存了森林中大部分沉积氮。但使用氮同位素作为示踪剂的研究表明，氮储存在森林地面中。这将注意力集中在占据森林地面的两组有益真菌：外菌根真菌和内菌根真菌。这两类植物都充当植物的补充根系，外生菌根真菌可以将沉积氮储存在覆盖针叶树和橡树根尖的真菌组织鞘中。该项目提出了三类问题，以了解外生菌根真菌在氮储存和树木死亡率中的作用。首先，外菌根真菌和内菌根真菌的物种数量和相对丰度是否受到长期大气氮沉降的影响？其次，外菌根真菌和内菌根真菌的代谢活动是否受到大气氮沉降的影响？当细根数量减少时，外生菌根真菌储存氮的能力是否会下降？第三，大气氮沉降对外生菌根生长和死亡率的影响是否与内生菌根树相同？为了回答这些问题，研究人员将在一项为期五年的研究中量化芝加哥大都市区氮沉积梯度上的菌根和植物反应。芝加哥大都市区适合提出这些问题，因为在类似的土壤和植被上，慢性氮沉降沿从西向东的梯度增加了 24%。在每个地点，研究人员将使用红橡树（Quercus rubra，外生菌根）和糖枫（Acer saccharum，内生菌根）来测试氮是否会改变（a）外生和内生菌根真菌的种类和丰度，（b）代谢活性和外菌根真菌和内菌根真菌的氮储存能力，(c) 外菌根真菌和内菌根真菌吸收铵和硝酸盐的具体速率内菌根根，(d) 红橡树和糖枫幼苗下土壤的存活、生长和氮浸出，氮沉降率为 17 至 42 kg ha-1year-1，为环境氮沉降率和两倍环境氮沉降率。