A model-based comparison of organic matter dynamics between riparian-forested and open-canopy streams

Riparian Ecology and Conservation Pub Date : 2014-06-03 DOI:10.2478/remc-2014-0001

Karolina Stenroth, Trent M. Hoover, J. Herrmann, I. Bohman, J. Richardson

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引用次数: 7

Abstract

Abstract The food webs of forest streams are primarily based upon inputs of organic matter from adjacent terrestrial ecosystems. However, streams that run through open landscapes generally lack closed riparian canopies, and an increasing number of studies indicate that terrestrial organic matter may be an important resource in these systems as well. Combining key abiotically-controlled factors (stream discharge, water temperature, and litter input rate) with relevant biotic processes (e.g. macroinvertebrate CPOM consumption, microbial processing), we constructed a model to predict and contrast organic matter dynamics (including temporal variation in CPOM standing crop, CPOM processing rate, FPOM production, and detritivore biomass) in small riparian-forested and open-canopy streams. Our modeled results showed that the standing crop of CPOM was similar between riparian-forested and open-canopy streams, despite considerable differences in litter input rate. This unexpected result was partly due to linkages between CPOM supply and consumer abundance that produced higher detritivore biomass in the forest stream than the open-canopy stream. CPOM standing crop in the forest stream was mainly regulated by top-down consumer control, depressing it to a level similar to that of the open-canopy stream. In contrast, CPOM standing crop in the open-canopy stream was primarily controlled by physical factors (litter input rates and discharge), not consumption. This suggests that abiotic processes (e.g. discharge) may play a greater role in limiting detrital resource availability and consumer biomass in open-canopy streams than in forest streams. These model results give insight on functional differences that exists among streams and they can be used to predict effects of anthropogenic influences such as forestry, agriculture, urbanization, and climate change on streams and how riparian management and conservation tools can be employed to mitigate undesirable effects.

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基于模型的河岸森林和开阔冠层溪流有机质动态比较

森林溪流的食物网主要依赖于邻近陆地生态系统的有机质输入。然而，流经开放景观的溪流通常缺乏封闭的河岸冠层，越来越多的研究表明，陆源有机质可能也是这些系统中的重要资源。结合关键的非生物控制因子(河流流量、水温和凋落物输入率)和相关的生物过程(如大型无脊椎动物CPOM消耗、微生物加工)，我们构建了一个模型来预测和对比小型滨林带和开阔林冠溪流中CPOM常熟作物、CPOM加工速率、FPOM产量和碎屑生物量的时间变化。模拟结果表明，尽管凋落物输入率存在较大差异，但CPOM的直立作物在河岸森林和开放冠层溪流之间是相似的。这一意想不到的结果部分是由于CPOM供应与消费者丰度之间的联系，森林溪流比开放冠层溪流产生更高的碎屑生物量。森林溪流的CPOM立木作物主要受自上而下的消费者控制，抑制到与开放林冠溪流相似的水平。与此相反，开冠流中立木作物的CPOM主要受物理因素(凋落物输入率和排放量)的控制，而不是消耗。这表明，与森林河流相比，非生物过程(如排放)在限制开放冠层河流中的碎屑资源可用性和消费者生物量方面可能发挥更大的作用。这些模型结果揭示了河流之间存在的功能差异，它们可用于预测人为影响(如林业、农业、城市化和气候变化)对河流的影响，以及如何采用河岸管理和保护工具来减轻不良影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Riparian Ecology and Conservation

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