多变天气对高草草原植被动态和涡流的影响

IF 2.4 3区 环境科学与生态学 Q2 ECOLOGY
Pradeep Wagle, Brian K. Northup, Corey Moffet, Stacey A. Gunter
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引用次数: 0

摘要

高草草原是美利坚合众国(美国)南部大平原的主要生态系统之一。我们在美国俄克拉荷马州中部的一个原生高草草原牧场调查了不同天气条件对卫星遥感获得的植被动态以及通过涡度协方差(EC)获得的二氧化碳(CO2)通量、蒸散量(ET)和生态系统水分利用效率(EWUE)动态的影响。该研究于 2019 年至 2022 年进行,考虑了不同的生长条件。生态系统二氧化碳净交换量(NEE)、总初级生产力(GPP)和蒸散发的日峰值分别为-8.7 g C m-2、15.1 g C m-2和5.9 mm。涡度通量的动态与植被的动态一致,表明基于卫星的高草草原植被指数是准确可靠的。在非生长季节(11 月至次年 3 月),二氧化碳通量和蒸散发率多年来变化不大。然而,涡通量在生长季节表现出不同的模式。在干草收割后的重新生长阶段,由于季末降雨量变化较大,涡通量的差异尤其明显。因此,不同年份生长季节碳增量的强度和持续时间也大不相同(例如,2019 年的碳汇持续时间为 6 个月,而 2022 年为 2 个月)。EWUE 在不同年份的变化幅度很大,这说明 EWUE 并非该草原生态系统的恒定属性。在干旱年份,GPP 的减少幅度大于蒸散发,导致 EWUE 减少。涡度通量与植被指数之间的密切关系表明,仅凭卫星图像就能估算出大空间尺度高草草原的二氧化碳通量和蒸散发。总之,这项研究为了解高草草原的碳循环和水循环以及环境驱动因素和干扰对其功能的影响提供了宝贵的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of Variable Weather on Vegetation Dynamics and Eddy Fluxes in Tallgrass Prairie

Tallgrass prairie is one of the major ecosystems in the Southern Great Plains of the United States of America (USA). We investigated the impact of diverse weather conditions on the vegetation dynamics obtained through satellite remote sensing and the dynamics of carbon dioxide (CO2) fluxes, evapotranspiration (ET), and ecosystem water use efficiency (EWUE) obtained through eddy covariance (EC) in a native tallgrass prairie pasture in central Oklahoma, USA. The study was conducted from 2019 to 2022, considering varying growing conditions. Daily peak net ecosystem CO2 exchange (NEE), gross primary production (GPP), and ET were −8.7 g C m−2, 15.1 g C m−2, and 5.9 mm, respectively. Dynamics of eddy fluxes aligned with the dynamics of vegetation, indicating the accuracy and reliability of satellite-based vegetation indices in tallgrass prairie. Both CO2 fluxes and ET rates showed little variation over the years during the non-growing season (November to March). However, eddy fluxes exhibited diverse patterns during growing seasons. During the regrowth phase after the hay harvest, the differences in eddy fluxes were particularly substantial due to large variations in late-season rainfall. Consequently, the strength and duration of carbon gain during growing seasons varied substantially by year (i.e., carbon sink for 6 mo in 2019 vs. 2 mo in 2022). The highly variable magnitude of EWUE over the years illustrates that EWUE is not a constant property of this prairie ecosystem. A greater reduction in GPP than ET during dry years led to reduced EWUE. Strong relationships between eddy fluxes and vegetation indices suggest that CO2 fluxes and ET can be estimated from satellite imagery alone for tallgrass prairie across large spatial scales. Overall, this study provides valuable insights into the carbon and water cycles of tallgrass prairie and the impacts of environmental drivers and disturbances on their function.

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来源期刊
Rangeland Ecology & Management
Rangeland Ecology & Management 农林科学-环境科学
CiteScore
4.60
自引率
13.00%
发文量
87
审稿时长
12-24 weeks
期刊介绍: Rangeland Ecology & Management publishes all topics-including ecology, management, socioeconomic and policy-pertaining to global rangelands. The journal''s mission is to inform academics, ecosystem managers and policy makers of science-based information to promote sound rangeland stewardship. Author submissions are published in five manuscript categories: original research papers, high-profile forum topics, concept syntheses, as well as research and technical notes. Rangelands represent approximately 50% of the Earth''s land area and provision multiple ecosystem services for large human populations. This expansive and diverse land area functions as coupled human-ecological systems. Knowledge of both social and biophysical system components and their interactions represent the foundation for informed rangeland stewardship. Rangeland Ecology & Management uniquely integrates information from multiple system components to address current and pending challenges confronting global rangelands.
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