Biophysical warming patterns of an open-top chamber and its short-term influence on a Phragmites wetland ecosystem in China

IF 4.6 3区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY

China Geology Pub Date : 2023-10-01 DOI:10.31035/cg2022064

Xue-yang Yu , Si-yuan Ye , Li-xin Pei , Liu-juan Xie , Ken W. Krauss , Samantha K. Chapman , Hans Brix

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引用次数: 1

Abstract

Passive-warming, open-top chambers (OTCs) are widely applied for studying the effects of future climate warming on coastal wetlands. In this study, a set of six OTCs were established at a Phragmites wetland located in the Yellow River Delta of Dongying City, China. With data collected through online transmission and in-situ sensors, the attributes and patterns of realized OTCs warming are demonstrated. The authors also quantified the preliminary influence of experimental chamber warming on plant traits. OTCs produced an elevated average air temperature of 0.8°C (relative to controls) during the growing season (June to October) of 2018, and soil temperatures actually decreased by 0.54°C at a depth of 5 cm and 0.46°C at a depth of 30 cm in the OTCs. Variations in diel patterns of warming depend greatly on the heat sources of incoming radiation in the daytime versus soil heat flux at night. Warming effects were often larger during instantaneous analyses and influenced OTCs air temperatures from −2.5°C to 8.3°C dependent on various meteorological conditions at any given time, ranging from cooling influences from vertical heat exchange and vegetation to radiation-associated warming. Night-time temperature depressions in the OTCs were due to the low turbulence inside OTCs and changes in surface soil-atmosphere heat transfer. Plant shoot density, basal diameter, and biomass of Phragmites decreased by 23.2%, 6.3%, and 34.0%, respectively, under experimental warming versus controls, and plant height increased by 4.3%, reflecting less carbon allocation to stem structures as plants in the OTCs experienced simultaneous wind buffering. While these passive-warming OTCs created the desired warming effects both to the atmosphere and soils, pest damages on the plant leaves and lodging within the OTCs were extensive and serious, creating the need to consider control options for these chambers and the replicated OTCs studies underway in other Chinese Phragmites marshes (Panjin and Yancheng).

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敞篷室的生物物理升温模式及其对中国葭萌湿地生态系统的短期影响

被动式升温敞顶室（OTC）被广泛应用于研究未来气候变暖对滨海湿地的影响。本研究在中国东营市黄河三角洲的葭萌湿地建立了一套共六个 OTC。通过在线传输和现场传感器收集的数据，展示了已实现的 OTCs 增暖的属性和模式。作者还量化了实验箱升温对植物性状的初步影响。在 2018 年的生长季节（6 月至 10 月），OTCs 产生的平均气温升高了 0.8°C（相对于对照组），OTCs 中 5 厘米深的土壤温度实际降低了 0.54°C，30 厘米深的土壤温度实际降低了 0.46°C。日间变暖模式的变化在很大程度上取决于白天入射辐射的热源与夜间土壤热通量的对比。在瞬时分析中，升温效应通常较大，对 OTCs 气温的影响从 -2.5°C 到 8.3°C，取决于任何特定时间的各种气象条件，从垂直热交换和植被的冷却影响到辐射相关的升温。OTCs 夜间气温降低的原因是 OTCs 内部湍流较小，以及地表土壤-大气传热发生了变化。与对照组相比，在实验升温条件下，葭藻的植株嫩枝密度、基部直径和生物量分别减少了 23.2%、6.3% 和 34.0%，植株高度增加了 4.3%，这反映出由于 OTCs 中的植株同时受到风的缓冲作用，茎干结构的碳分配减少了。虽然这些被动增温的OTC对大气和土壤都产生了预期的增温效果，但OTC内植物叶片上的害虫破坏和宿根现象广泛而严重，因此需要考虑这些室的控制方案，以及正在中国其他苇沼（盘锦和盐城）进行的OTC复制研究。

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