CSIRO Oceans and Atmosphere, Hobart 7001, Australia.
CSIRO Oceans and Atmosphere, Hobart 7001, Australia.
Mar Pollut Bull. 2021 Jun;167:112297. doi: 10.1016/j.marpolbul.2021.112297. Epub 2021 Apr 23.
Water quality of the Great Barrier Reef (GBR) is determined by a range of natural and anthropogenic drivers that are resolved in the eReefs coupled hydrodynamic - biogeochemical marine model forced by a process-based catchment model, GBR Dynamic SedNet. Model simulations presented here quantify the impact of anthropogenic catchment loads of sediments and nutrients on a range of marine water quality variables. Simulations of 2011-2018 show that reduction of anthropogenic catchment loads results in improved water quality, especially within river plumes. Within the 16 resolved river plumes, anthropogenic loads increased chlorophyll concentration by 0.10 (0.02-0.25) mg Chl m. Reductions of anthropogenic loads following proposed Reef 2050 Water Quality Improvement Plan targets reduced chlorophyll concentration in the plumes by 0.04 (0.01-0.10) mg Chl m. Our simulations demonstrate the impact of anthropogenic loads on GBR water quality and quantify the benefits of improved catchment management.
大堡礁(GBR)的水质由一系列自然和人为驱动因素决定,这些因素在 eReefs 耦合水动力-生物地球化学海洋模型中得到了解决,该模型由基于过程的集水区模型 GBR Dynamic SedNet 驱动。本文提出的模型模拟量化了人为集水区沉积物和养分负荷对一系列海洋水质变量的影响。2011-2018 年的模拟结果表明,减少人为集水区负荷会改善水质,特别是在河流羽流内。在 16 个解析的河流羽流中,人为负荷使叶绿素浓度增加了 0.10(0.02-0.25)mg Chl m。根据提议的“2050 年大堡礁水质改善计划”目标减少人为负荷,使羽流中的叶绿素浓度降低了 0.04(0.01-0.10)mg Chl m。我们的模拟演示了人为负荷对大堡礁水质的影响,并量化了改善集水区管理的好处。
