利用附生大型地衣评估美国森林中氮和硫的大气沉降带来的生态风险。

Assessing Ecological Risks from Atmospheric Deposition of Nitrogen and Sulfur to US Forests Using Epiphytic Macrolichens.

作者信息

Geiser Linda H, Nelson Peter R, Jovan Sarah E, Root Heather T, Clark Christopher M

机构信息

Water, Wildlife, Fish, Air & Rare Plants Directorate, Forest Service, U.S. Dept. of Agriculture, 201 14th St SW, Mailstop 1121, Washington, DC 20250, USA.

Penobscot Experimental Forest, Northern Research Station, Forest Service, U.S. Dept. of Agriculture, and University of Fort Kent, Maine, 54 Government Road, Bradley, ME 04411, USA.

出版信息

Diversity (Basel). 2019 Jun 3;11(6):1-87. doi: 10.3390/d11060087.

DOI:10.3390/d11060087

PMID:34712100

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8549857/

Abstract

Critical loads of atmospheric deposition help decision-makers identify levels of air pollution harmful to ecosystem components. But when critical loads are exceeded, how can the accompanying ecological risk be quantified? We use a 90% quantile regression to model relationships between nitrogen and sulfur deposition and epiphytic macrolichens, focusing on responses of concern to managers of US forests: Species richness and abundance and diversity of functional groups with integral ecological roles. Analyses utilized national-scale lichen survey data, sensitivity ratings, and modeled deposition and climate data. We propose 20, 50, and 80% declines in these responses as cut-offs for low, moderate, and high ecological risk from deposition. Critical loads (low risk cut-off) for total species richness, sensitive species richness, forage lichen abundance and cyanolichen abundance, respectively, were 3.5, 3.1, 1.9, and 1.3 kg N and 6.0, 2.5, 2.6, and 2.3 kg S ha yr. High environmental risk (80% decline), excluding total species richness, occurred at 14.8, 10.4, and 6.6 kg N and 14.1, 13, and 11 kg S ha yr. These risks were further characterized in relation to geography, species of conservation concern, number of species affected, recovery timeframes, climate, and effects on interdependent biota, nutrient cycling, and ecosystem services.

摘要

大气沉降的临界负荷有助于决策者确定对生态系统组成部分有害的空气污染水平。但是，当超过临界负荷时，如何量化随之而来的生态风险呢？我们使用90%分位数回归来模拟氮和硫沉降与附生大型地衣之间的关系，重点关注美国森林管理者关心的响应：物种丰富度、丰度以及具有重要生态作用的功能组的多样性。分析利用了全国范围的地衣调查数据、敏感性评级以及模拟的沉降和气候数据。我们提出将这些响应分别下降20%、50%和80%作为沉降低、中、高生态风险的临界值。总物种丰富度、敏感物种丰富度、饲料地衣丰度和蓝藻地衣丰度的临界负荷（低风险临界值）分别为3.5、3.1、1.9和1.3千克氮/公顷·年以及6.0、2.5、2.6和2.3千克硫/公顷·年。除总物种丰富度外，高环境风险（下降80%）出现在14.8、10.4和6.6千克氮/公顷·年以及14.1,、13和11千克硫/公顷·年。这些风险还根据地理、受保护关注的物种、受影响的物种数量、恢复时间框架、气候以及对相互依存的生物群、养分循环和生态系统服务的影响进行了进一步描述。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b432/8549857/b315f0e7fd94/nihms-1732714-f0001.jpg

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利用附生大型地衣评估美国森林中氮和硫的大气沉降带来的生态风险。

Assessing Ecological Risks from Atmospheric Deposition of Nitrogen and Sulfur to US Forests Using Epiphytic Macrolichens.

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