Biomass and Productivity of Thalassia testudinum in Estuaries of the Florida Panhandle

IF 1.5 Q3 MARINE & FRESHWATER BIOLOGY

GULF AND CARIBBEAN RESEARCH Pub Date : 2023-01-01 DOI:10.18785/gcr.3401.11

Laura Yarbro, Paul Carlson, Ken Heck, Dorothy Byron, Sandra Brooke, Linda Fitzhugh, Sheila Scolaro, Barbara Albrecht, Rachel Presley, Jane Caffrey

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Abstract

Thalassia testudinum often dominates seagrass meadows of the Florida panhandle but few measurements of productivity, biomass, density, turnover or leaf area index in this region have been made. We targeted 5 estuaries located at similar latitudes, 30⁰ ± 0.3⁰N: Big Lagoon, Santa Rosa Sound, St. Andrew Bay, St. Joseph Bay, and St. George Sound. This study was one component of a collaborative partnership of state and local researchers examining factors preventing recovery in panhandle estuarine areas that had historically contained seagrass in the 1940s and 1950s. Measurements were made twice in 2016, once in June and then again in summer or fall, except in Santa Rosa Sound where measurements were made 3 times. In the estuaries sampled for the second time in July or August, aboveground productivity was greater than in June. St. Joseph Bay had the highest aboveground productivity (4.3 g/m2/d) and 1—sided leaf area index (4.2) while St. George Sound had the lowest values (0.41 g/m2/d and 1.0). Principal component analysis suggested that St. Andrew Bay, Big Lagoon and Santa Rosa Sound were the most similar, with higher values for shoot densities and leaf turnover and lower salinities and watershed:water ratios. St. Joseph Bay had high aboveground productivity and salinity, and low turbidity. St. George Sound had low aboveground productivity, high total suspended solids and the highest watershed:water ratio. These baseline productivity estimates will be useful to assess the success of restoration efforts targeting seagrasses in the Florida panhandle and evaluate impacts of climate change on seagrasses.

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佛罗里达狭长地带河口海棠的生物量和生产力

在佛罗里达狭长地带的海草草甸中，海褐藻(Thalassia testudinum)经常占主导地位，但对该地区的生产力、生物量、密度、周转量或叶面积指数的测量很少。我们的目标是位于相似纬度30⁰±0.3⁰N的5个河口:大泻湖、圣罗莎湾、圣安德鲁湾、圣约瑟夫湾和圣乔治湾。这项研究是州和地方研究人员合作伙伴关系的一个组成部分，研究了在20世纪40年代和50年代历史上曾有海草的狭长河口地区阻碍恢复的因素。2016年进行了两次测量，一次在6月，一次在夏季或秋季，除了在圣罗莎海湾进行了三次测量。在7月或8月第二次采样的河口，地上生产力高于6月。地上生产力最高的是圣约瑟夫湾(4.3 g/m2/d)，单侧叶面积指数为4.2，最低的是圣乔治湾(0.41 g/m2/d)和单侧叶面积指数(1.0)。主成分分析结果表明，圣安德鲁湾、大泻湖和圣罗莎湾最相似，枝条密度和叶片周转率较高，盐度和流域水比较低。圣若瑟湾地上生产力和含盐量高，浊度低。圣乔治湾地上生产力低，总悬浮物高，集水比最高。这些基线生产力估计将有助于评估佛罗里达狭长地带海草恢复工作的成功程度，并评估气候变化对海草的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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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