Etnoyer, Peter


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Octocorals are broadly distributed throughout the world’s oceans, from the shallow intertidal zone to deeper than 5800 meters. Fishermen refer to large colonies as ‘trees’. This is appropriate because colonies provide complex structural habitat for associated species, they are broadly distributed, and they are threatened by industrial practices, such as bottom trawling. Below the warm water layer (50 – 70 m deep), octocorals are presumed to be cosmopolitan in the West Atlantic, with a broadly homogenous distribution. This creates a problem for conservation and management because it is difficult to justify conservation of one place, if all others are the same. This dissertation tested the null hypothesis of no difference in octocoral assemblages at the three spatial scales (referred to as basin, region, and site scale) through meta-analysis of two large, original datasets. The first was 1881 records of octocoral occurrences in the Gulf of Mexico from cruise reports and museums. The second was 8495 seafloor images from six outer continental shelf banks, and one site between banks, in the northwestern Gulf region. Univariate, multivariate, and spatial analysis techniques were used to compare genera, depth zones, regions, and banks within a Geographic Information System framework.Octocoral assemblages in the Gulf of Mexico differed significantly between depth zones and regions, but there was no difference in diversity between depth zones less than 800 m, due to species replacement. Composition of octocoral assemblages varied significantly between sites, and hotspots for richness and abundance were evident within sites. Null hypotheses of no difference between banks, depth zones, and regions were rejected with confidence. The findings support the broad distribution of octocorals in the Gulf of Mexico, but not homogeneity of octocoral assemblages. Based on these results, place-based conservation of deep octocoral habitat is justified, because some sites have higher diversity and abundance of octocorals than others.


Submitted to the Office of Graduate Studies of Texas A&M University- Corpus Christi In partial fulfillment of the requirements for the degree of DOCTOR OF PHILOSOPHY in Coastal and Marine System Science


Octocoral, deep-sea coral, medophotic



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