Profound Changes in the Physical Environment of Lake Taihu From 25 Years of Long‐Term Observations: Implications for Algal Bloom Outbreaks and Aquatic Macrophyte Loss

Profound Changes in the Physical Environment of Lake Taihu From 25 Years of Long‐Term Observations: Implications for Algal Bloom Outbreaks and Aquatic Macrophyte Loss

The global environment has experienced rapid changes over the past three decades, including global warming, global dimming and brightening, and abnormal climate fluctuations. However, direct evidence of global change in the regional physical environment of a lake is rare especially in China because...

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Veröffentlicht in:Water resources research 2018-07, Vol.54 (7), p.4319-4331
Hauptverfasser: Zhang, Yunlin, Qin, Boqiang, Zhu, Guangwei, Shi, Kun, Zhou, Yongqiang
Format: Artikel
Sprache:eng
Schlagworte:
Algae
algal bloom
Algal blooms
Aquatic ecosystems
Aquatic plants
Biodiversity
Brightening
Climate change
Climate variability
Dimming
Duration
Ecological monitoring
Environmental monitoring
Global climate
Global warming
Hydrology
Lakes
long‐term observations
Macrophytes
Outbreaks
physical environment
Phytoplankton
Secchi disk depth
Sunshine duration
Water depth
water level
Water levels
Water temperature
Wind speed
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container_end_page 4331
container_issue 7
container_start_page 4319
container_title Water resources research
container_volume 54
creator Zhang, Yunlin
Qin, Boqiang
Zhu, Guangwei
Shi, Kun
Zhou, Yongqiang
description The global environment has experienced rapid changes over the past three decades, including global warming, global dimming and brightening, and abnormal climate fluctuations. However, direct evidence of global change in the regional physical environment of a lake is rare especially in China because long‐term observations are lacking. Here we demonstrate the profound changes in the physical environment of Lake Taihu using 25 years of long‐term meteorological, hydrological, and limnological observations and elucidate the potential implications for algal bloom outbreaks and aquatic macrophyte loss. We document significant increasing rates of 0.36 and 0.37°C/decade for the yearly mean air and water temperatures, respectively. In addition, significant increases are observed for the yearly total sunshine duration and yearly mean water level with the rates of 165.0 hr/decade and 0.15 m/decade. In contrast, significant decreases are documented for the yearly mean wind speed and Secchi disk depth with the rates of 0.27 m/(s · decade) and 0.21 m/decade for the macrophyte‐dominated regions, respectively. Therefore, the significant increasing ratio of temperature to wind promoted algal bloom formation and outbreaks, while the decreasing ratio of Secchi disk depth to water level resulted in the loss of aquatic macrophytes, which accelerated the shift from a clear macrophyte‐dominated state to a turbid phytoplankton‐dominated state in Lake Taihu. Forecasts of increased climatic variability in the future pose serious ramifications for both the ecosystem diversity and service functions of large shallow lakes. Our findings highlight the importance of long‐term physical environment monitoring data for understanding ecosystem response to global climate change. Key Points Significant increases are elucidated for water temperature and water level Significant decreases are documented for wind speed and Secchi disk depth Increasing temperature to wind ratio will promote bloom outbreaks, but decreasing SDD to water level ratio will cause aquatic macrophyte loss
doi_str_mv 10.1029/2017WR022401
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However, direct evidence of global change in the regional physical environment of a lake is rare especially in China because long‐term observations are lacking. Here we demonstrate the profound changes in the physical environment of Lake Taihu using 25 years of long‐term meteorological, hydrological, and limnological observations and elucidate the potential implications for algal bloom outbreaks and aquatic macrophyte loss. We document significant increasing rates of 0.36 and 0.37°C/decade for the yearly mean air and water temperatures, respectively. In addition, significant increases are observed for the yearly total sunshine duration and yearly mean water level with the rates of 165.0 hr/decade and 0.15 m/decade. In contrast, significant decreases are documented for the yearly mean wind speed and Secchi disk depth with the rates of 0.27 m/(s · decade) and 0.21 m/decade for the macrophyte‐dominated regions, respectively. Therefore, the significant increasing ratio of temperature to wind promoted algal bloom formation and outbreaks, while the decreasing ratio of Secchi disk depth to water level resulted in the loss of aquatic macrophytes, which accelerated the shift from a clear macrophyte‐dominated state to a turbid phytoplankton‐dominated state in Lake Taihu. Forecasts of increased climatic variability in the future pose serious ramifications for both the ecosystem diversity and service functions of large shallow lakes. Our findings highlight the importance of long‐term physical environment monitoring data for understanding ecosystem response to global climate change. 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However, direct evidence of global change in the regional physical environment of a lake is rare especially in China because long‐term observations are lacking. Here we demonstrate the profound changes in the physical environment of Lake Taihu using 25 years of long‐term meteorological, hydrological, and limnological observations and elucidate the potential implications for algal bloom outbreaks and aquatic macrophyte loss. We document significant increasing rates of 0.36 and 0.37°C/decade for the yearly mean air and water temperatures, respectively. In addition, significant increases are observed for the yearly total sunshine duration and yearly mean water level with the rates of 165.0 hr/decade and 0.15 m/decade. In contrast, significant decreases are documented for the yearly mean wind speed and Secchi disk depth with the rates of 0.27 m/(s · decade) and 0.21 m/decade for the macrophyte‐dominated regions, respectively. Therefore, the significant increasing ratio of temperature to wind promoted algal bloom formation and outbreaks, while the decreasing ratio of Secchi disk depth to water level resulted in the loss of aquatic macrophytes, which accelerated the shift from a clear macrophyte‐dominated state to a turbid phytoplankton‐dominated state in Lake Taihu. Forecasts of increased climatic variability in the future pose serious ramifications for both the ecosystem diversity and service functions of large shallow lakes. Our findings highlight the importance of long‐term physical environment monitoring data for understanding ecosystem response to global climate change. Key Points Significant increases are elucidated for water temperature and water level Significant decreases are documented for wind speed and Secchi disk depth Increasing temperature to wind ratio will promote bloom outbreaks, but decreasing SDD to water level ratio will cause aquatic macrophyte loss</abstract><cop>Washington</cop><pub>John Wiley &amp; Sons, Inc</pub><doi>10.1029/2017WR022401</doi><tpages>13</tpages><orcidid>https://orcid.org/0000-0002-3382-4570</orcidid><oa>free_for_read</oa></addata></record>
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source Wiley-Blackwell AGU Digital Library; EZB-FREE-00999 freely available EZB journals; Wiley Online Library All Journals
subjects Algae
algal bloom
Algal blooms
Aquatic ecosystems
Aquatic plants
Biodiversity
Brightening
Climate change
Climate variability
Dimming
Duration
Ecological monitoring
Environmental monitoring
Global climate
Global warming
Hydrology
Lakes
long‐term observations
Macrophytes
Outbreaks
physical environment
Phytoplankton
Secchi disk depth
Sunshine duration
Water depth
water level
Water levels
Water temperature
Wind speed
title Profound Changes in the Physical Environment of Lake Taihu From 25 Years of Long‐Term Observations: Implications for Algal Bloom Outbreaks and Aquatic Macrophyte Loss
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