An automated modular heating solution for experimental flow-through stream mesocosm systems

IF 2.1 3区 地球科学 Q2 LIMNOLOGY Limnology and Oceanography: Methods Pub Date : 2023-12-08 DOI:10.1002/lom3.10596
Iris Madge Pimentel, Philipp M. Rehsen, Arne J. Beermann, Florian Leese, Jeremy J. Piggott, Sebastian Schmuck
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Abstract

Water temperature is a key environmental variable in stream ecosystems determining species distribution ranges, community composition, and ecological processes. In addition to global warming, direct anthropogenic impacts, for example through the influx of power plant cooling water or due to sun exposure after the removal of riparian vegetation, result in elevated water temperatures. However, temperature effects in stream ecosystems have mostly been tested in recirculating experimental systems, which can neither capture diurnal and seasonal variability in other environmental variables nor allow for entrainment of stream organisms. In contrast, open flow-through systems, which are constantly supplied with stream water, offer a more realistic setting for stream ecological experiments, yet are difficult to implement. Here, we outline a heating module for the purpose of differential temperature regulation in a flow-through mesocosm system by automatic control of warm water supply. We validated the functionality of the module in indoor trials as well as in an outdoor ExStream experimental mesocosm system. Furthermore, we tested the implications of different warm water temperatures for the survival of invertebrates drifting through the heating module to derive recommendations for the maximum warm water temperature for mixing with the natural water inflow. The module allows for controlled open flow-through experiments in the field and the key components are flexible and scalable. Therefore, the module can be easily integrated into existing experimental flow-through setups.

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流经流介观实验系统的自动化模块加热解决方案
水温是溪流生态系统中的一个关键环境变量,决定着物种分布范围、群落组成和生态过程。除全球变暖外,人类活动的直接影响也会导致水温升高,例如发电厂冷却水的流入或河岸植被移除后的阳光照射。然而,溪流生态系统中的温度效应大多是在循环实验系统中进行测试的,这种系统既无法捕捉其他环境变量的昼夜和季节变化,也无法夹带溪流生物。相比之下,开放式流经系统可持续提供溪水,为溪流生态实验提供了更真实的环境,但却难以实施。在这里,我们概述了一个加热模块,目的是通过自动控制温水供应,在流动介观系统中进行温差调节。我们在室内试验和室外 ExStream 实验介观系统中验证了该模块的功能。此外,我们还测试了不同温水温度对漂流过加热模块的无脊椎动物存活率的影响,从而得出了与自然水流混合的最高温水温度建议。该模块允许在现场进行受控的开放式流经实验,其关键组件具有灵活性和可扩展性。因此,该模块可以很容易地集成到现有的流动实验装置中。
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来源期刊
CiteScore
4.80
自引率
3.70%
发文量
56
审稿时长
3 months
期刊介绍: Limnology and Oceanography: Methods (ISSN 1541-5856) is a companion to ASLO''s top-rated journal Limnology and Oceanography, and articles are held to the same high standards. In order to provide the most rapid publication consistent with high standards, Limnology and Oceanography: Methods appears in electronic format only, and the entire submission and review system is online. Articles are posted as soon as they are accepted and formatted for publication. Limnology and Oceanography: Methods will consider manuscripts whose primary focus is methodological, and that deal with problems in the aquatic sciences. Manuscripts may present new measurement equipment, techniques for analyzing observations or samples, methods for understanding and interpreting information, analyses of metadata to examine the effectiveness of approaches, invited and contributed reviews and syntheses, and techniques for communicating and teaching in the aquatic sciences.
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