一个关于河口淡水流入的简单问题如何塑造了一个职业生涯

IF 1.5 Q3 MARINE & FRESHWATER BIOLOGY

GULF AND CARIBBEAN RESEARCH Pub Date : 2021-01-01 DOI:10.18785/GCR.3201.04

P. Montagna

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引用次数: 3

摘要

机缘巧合让他开始了研究淡水流入如何驱动河口过程的事业。1986年，有人问我:一个海湾要有多少淡水才能保持健康?这个问题塑造了我的职业生涯。地球上可能没有比德克萨斯州海岸更好的地方来比较流入差异造成的影响了，因为主要的河口系统处于气候梯度中，从东北部的路易斯安那州边界到西南部的墨西哥边界，径流减少了56倍。该河口对比试验用于研究入流效应。这门科学从20世纪90年代生物直接对流入速率做出反应的想法发展到21世纪初的多米诺骨牌理论，即流入驱动河口条件，生物对这些栖息地条件做出反应。今天，人们假设气候驱动水文，水文驱动河口动态;因此，气候因素可以间接地塑造河口的结构和功能。假设流入梯度的变化类似于河口随时间变化的影响，我们现在可以预测气候变化或土地利用变化带来的生态系统变化。

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How a Simple Question About Freshwater Inflow to Estuaries Shaped a Career

Chance and good luck led to a career studying how freshwater inflow drives estuary processes. In 1986, someone asked me: How much fresh water has to flow to a bay for it to be healthy? The question shaped my career. There is probably no better place on Earth to compare effects caused by inflow differences than the Texas coast, because the major estuarine systems lie in a climatic gradient where runoff decreases 56—fold from the Louisiana border in the northeast to the Mexico border in the southwest. This estuary—comparison experiment was used to study inflow effects. The science evolved from the idea in the 1990’s that organisms responded directly to inflow rates to the domino theory in the 2000’s of indirect effects where inflow drives estuary conditions and that organisms respond to those habitat conditions. Today it is hypothesized that climate drives hydrology, which drives estuary dynamics; and thus, climatic factors can indirectly shape estuarine structure and function. Assuming change along the inflow gradient is analogous to effects of altering estuaries over time, we can now predict ecosystem change with changing climate or land—use change.

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来源期刊

GULF AND CARIBBEAN RESEARCH Environmental Science-Water Science and Technology

CiteScore

1.60

自引率

0.00%

发文量