Decomposition of Leaf Litter from Native and Nonnative Woody Plants in Terrestrial and Aquatic Systems in the Eastern and Upper Midwestern U.S.A.

IF 0.6 4区环境科学与生态学 Q4 Agricultural and Biological Sciences

American Midland Naturalist Pub Date : 2021-07-19 DOI:10.1674/0003-0031-186.1.51

D. Hornbach, K. Shea, Jerald J. Dosch, Carolyn L. Thomas, T. B. Gartner, A. Aguilera, L. J. Anderson, Kevin Geedey, C. Mankiewicz, B. Pohlad, Rachel Schultz

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引用次数: 1

Abstract

Abstract. Leaf litter decomposition plays an important role in nutrient cycling in both terrestrial and aquatic systems. Decay rates vary based on species, habitat, climate, and local environmental conditions. Invasive plants alter decomposition processes; however, there is a lack of research exploring patterns at regional and continental scales. In this study we examined the decomposition of both native and nonnative, invasive woody plant leaf litter and mixtures of the two, in both terrestrial and aquatic habitats at nine locations in the eastern and midwestern U.S.A. There was significant variation among locations, which was not clearly related to either average air temperature or precipitation. Unexpectedly, in locations with multiple years of data, there were higher rates of decomposition in years with lower temperatures and precipitation in both terrestrial and aquatic habitats. We found decay rates were generally higher in aquatic than terrestrial habitats and leaf litter from nonnative invasive species generally decayed faster than that of native species in both terrestrial and aquatic systems. Differences in litter decay rates among invasive species were significant in both terrestrial and aquatic habitats; whereas no differences were found among native species in either habitat. In mixed litter bags, decay rates were lower than what was predicted based on the relative amounts of native and invasive litter in each bag, possibly indicating the presence of native leaf litter slows the decomposition of invasive leaf litter. Additionally, there may have been threshold effects in the mixed litter bags, especially in aquatic systems. While this study supported several generalizations about leaf decomposition rates (invasive > native, aquatic > terrestrial), the variability in the decay rates from different locations and habitats indicates combinations of different species and local conditions may overshadow other general trends related to litter decomposition.

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美国东部和中西部上部陆生和水生系统中本地和非本地木本植物的落叶分解。

摘要凋落叶分解在陆地和水生系统的养分循环中都起着重要作用。腐烂率因物种、栖息地、气候和当地环境条件而异。入侵植物改变了分解过程;然而，在区域尺度和大陆尺度上对气候变化规律的研究还很缺乏。在本研究中，我们对美国东部和中西部9个地点的陆地和水生生境中原生和外来入侵木本植物凋落叶的分解以及两者混合的分解进行了研究。不同地点之间存在显著差异，这与平均气温或降水没有明显的关系。出乎意料的是，在有多年数据的地点，在陆地和水生栖息地的温度和降水较低的年份，分解率更高。研究发现，水生生境的凋落叶腐烂速率普遍高于陆生生境，非本地入侵物种的凋落叶腐烂速度普遍快于本地物种。在陆地和水生生境中，入侵物种凋落物腐烂率差异显著;而在两个栖息地的本地物种之间没有发现差异。在混合凋落物袋中，腐烂率低于基于每个袋中本地凋落物和入侵凋落物相对数量的预测，可能表明本地凋落物的存在减缓了入侵凋落物的分解。此外，混合凋落物袋中可能存在阈值效应，特别是在水生系统中。虽然这项研究支持了一些关于落叶分解速率的概括(入侵>原生，水生>陆生)，但不同地点和栖息地的腐烂速率变异性表明，不同物种和当地条件的组合可能掩盖了与凋落物分解相关的其他一般趋势。

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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来源期刊

American Midland Naturalist 环境科学-生态学

CiteScore

1.20

自引率

0.00%

发文量

审稿时长

18-36 weeks

期刊介绍： The American Midland Naturalist has been published for 90 years by the University of Notre Dame. The connotations of Midland and Naturalist have broadened and its geographic coverage now includes North America with occasional articles from other continents. The old image of naturalist has changed and the journal publishes what Charles Elton aptly termed "scientific natural history" including field and experimental biology. Its significance and breadth of coverage are evident in that the American Midland Naturalist is among the most frequently cited journals in publications on ecology, mammalogy, herpetology, ornithology, ichthyology, parasitology, aquatic and invertebrate biology and other biological disciplines.