Relative effects of physical and small-scale nutrient factors on the distribution of tropical seagrasses in the Great White Heron National Wildlife Refuge, Lower Florida Keys
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Abstract
We tested the relative effects of physical factors such as exposure time and water depth as well as nutrient availability on Thalassia testudinum, Halodule wrightii and Syringodium filiforme distribution within the Great White Heron National Wildlife Refuge, Florida Keys. We quantified the percent cover of each sea- grass species in 1-m2 plots (n = 325) along intertidal and shallow subtidal flats adjacent to Upper Harbor Key Water Keys and Howe Key. We used model selection to evaluate the effects of physical parameters and water column nutrients on the percent cover and composition of seagrass species within plots. Best models were selected based on lowest Akaike’s information criteria (AIC) values and maximum model weights (ωi). We found that the presence of the other species, distance to nearest island and time of exposure during diurnal low tides best explained the distribution of T. testudinum (ωi = 0.44). Model averaged parameter estimates (ˇ) showed that H. wrightii and S. filiforme had the greatest negative influence on T. testudinum (ˇ = −0.396, −0.278, respectively). H. wrightii distribution was affected strongly by the presence of the other species, distance to Pine Channel, exposure time and mean lower low water (MLLW) (ωi = 0.56) with T. testudinum and S. filiforme exerting the greatest negative influences (ˇ = −0.450, −0.184, respectively). The best model indicated that S. filiforme was strongly influenced by the other species, distance to Pine Channel and MLLW (ωi = 0.5). Model averaging indicated that S. filiforme was associated with deep water (ˇMLLW = −28.0.018). Our study showcased that small scale (<100 m) habitat heterogeneity influenced the composition of seagrass communities.