Coral community structure at pooled random sites between Cabritte Horn and White Point in St . John before and after five hurricanes from 1988 â€ “ 2017

These files contain data that support an analysis of the effects of two major hurricanes on coral reefs that have been extensively studied for more than three decades. Major tropical storms are destructive phenomena with large effects on the community dynamics of multiple biomes. On coral reefs, their impacts have been described for decades, leading to the expectation that future storms should have effects similar to those recorded in the past. This expectation relies on the assumption that storm intensities will remain unchanged, and the impacted coral reef communities are similar to those of the recent past; neither assumption is correct. These data support a study quantifying the effects of two category five hurricanes on the reefs of St. John, US Virgin Islands, where 31 y of time-series analyses reveal chronic coral mortality, increasing macroalgal abundance, and five major hurricanes that caused acute coral mortality. Contextualized by these trends, the effects of the most recent storms, Hurricanes Irma and Maria (September 2017), on coral cover were modest. While mean absolute coral cover declined 1â€“4% depending on site, these effects were not statistically discernable. Following decades of increasing abundance of macroalgae, this functional group responded to the recent hurricanes with large increases in abundance on both absolute and relative scales. Decades of chronic mortality have changed the coral assemblages of St. John to create degraded communities that are resistant to severe storms.


Dataset Description
The shallow reefs (â‰¤ 14-m depth) of St. John have been subjects of time-series analyses since December 1987.Study plots first were established at 9-m depth at Yawzi Point, and at 14-m depth at Tektite, both of which provide examples of reefs dominated by Orbicella annularis.The initial sampling evaluated the impacts of coral bleaching in 1987, and each site consisted of three, 10-m transects placed at a constant depth, parallel to one another (and 5-m apart), and permanently marked.Ten contiguous photoquadrats (1 Ã-1 m) have been recorded along each transect annually, and here results from 1988 (March) and 1989 (April and October) are used to evaluate the effects of Hurricane Hugo, from 1995 (May) and 1996 (May) to evaluate the effects of Hurricanes Luis and Marilyn, and from 2017 (July and November) to evaluate the effects of Hurricanes Irma and Maria.The damage from Hurricane Hugo at Yawzi Point was extensive, and to capture this spatial scale of damage, the analysis was expanded with four, unmarked 20-m transects.In 1989, these transects were recorded using Hi-8 video (Sony Corporation), but starting in 1992, they were recorded as contiguous photoquadrats using underwater cameras.Surveys of these 20-m transects from 1989 (October), 1995 (May), 1996 (May), and 2017 (July and November) are used here to expand the spatial scale of the present analysis.

Acquisition Description
Photoquadrats at Yawzi Point and Tektite were recorded using cameras attached to a framer that held them perpendicular to the reef.A Nikonos V (35-mm format) was used from 1987-1999, and digital cameras thereafter, with 3.3 MP resolution from 2000â€"2006, 6.1 MP from 2006â€"2010, 12.1 MP in 2011, 16.2 from 2012â€"2015, and 36.3MP from 2016â€"present.
Cameras were fitted with a strobe (Nikonos SB 105) and the images resolved objects â‰¥ 1cm diameter.
The analyses at Yawzi Point and Tektite were augmented in 1992 with six additional sites that were selected using random coordinates constrained to hard substrata.This sampling focused on a habitat where boulders and cliffs of igneous rock are common, mean coral cover has remained < 5%, andÂ Orbicella annularisÂ has not been common since at least 1992.Five sites are at 9-m depth, with one at 7-m depth (RS9), and they have been recorded annually.
These sites serve as replicates of reefs between Cabritte Horn and White Point, and are analyzed as the pooled random sites (PRS).Results from 1995 (May) and 1996 (May) are used to evaluate the effects of Hurricanes Luis and Marilyn, and from 2017 (July and November) to evaluate the effects of Hurricanes Irma and Maria.Each site consists of a permanently marked transect at a constant depth that was 20-m long from 1992â€"1999 (n 18 photoquadrats site -1 ), but was extended to 40 m in 2000 when digital photography was implemented (n ~ 40 photoquadrats site -1 ).Photoquadrats (0.5 Ã-0.5 m) were recorded at random positions along each transect (and re-randomized annually) using cameras (as described above) attached to a framer that held them perpendicular to the reef.Cameras were attached to two strobes (Nikonos SB 105), and resolved objects to at least 5-mm diameter.
Photoquadrats were analyzed by overlaying them with a grid of 200 randomly-located dots and identifying the substratum beneath each dot.Images were analyzed manually prior to 2005, from 2005â€"2011 using CPCe software, and from 2012 to present, using CoralNet software with manual annotations.With this approach, the abundance of each substratum type is defined by the total number of dots that occur on top of it in each image, and when expressed as a percentage of the dot population on each image, provides a measure of percentage cover (hereafter â€oecoverâ€ ) (Menge 1976).Two resolutions were applied to the analyses, first to resolve three functional groups (FG), coral (combined cover of scleractinians), macroalgae (algae â‰¥ 1-cm high, mostlyÂ Halimeda, Lobophora, Padina, andÂ Dictyota), and a combined category of crustose coralline algae, algal turf, and bare space (CTB).Second, scleractinians were resolved to the lowest taxonomic level possible, which was genera at Yawzi Point and Tektite, and a combination of species and genera at the PRS.
In addition to the hurricanes described herein, St. John also was impacted by Hurricane Lenny on 17 November 1999 (Table S1).However, underwater damage attributed to this storm was minor, probably due to the modest local wind speeds (150 km h -1 ), and propagation of damaging waves east and south that reduced their impacts on the southern shore of St. John.
The effects of Hurricane Lenny are not considered in the present analysis.Given the vagaries of fieldwork extending over 31 Years, it was not possible to standardize the timing of sampling that took place before and after each storm episode.Sampling took place 6 weeks after Hurricane Hugo, 8 months after Hurricane Luis, and 9 weeks after Hurricane Maria.Sampling after the two most recent storms was comparable to sampling after Hurricane Hugo with regards to the delay following the storms and, therefore, probably quantified mostly coral mortality directly attributable to physical damage, and blooms of macroalgae commensurate with the growth that is possible in two autumn months.The longer delay in sampling after Hurricanes Marilyn and Luis probably resulted in measurements of coral mortality that was caused both by direct physical damage and delayed-onset disease, as well as blooms of macroalgae that can grow over 8 months extending from autumn to spring.

Processing Description
Statistical approach.
To test for changes over time in the response of benthic communities to hurricanes, the three FG were tested in separate univariate models (in which the dependent variables were cover of coral, macroalgae, or CTB) for the effects of hurricanes (the fixed effect).The effects of Hurricane Hugo were evaluated relative to FG abundance in April 1989, and Hurricanes Luis and Marilyn, and Irma and Maria were each considered single storm episodes because they occurred in quick succession.Percentage cover was arcsine transformed, and the assumptions of normality and equal variance explored through graphical analysis of residuals.
Planned contrasts were used to compare cover before and after each storm episode.Changes in absolute and relative coral cover along the four 20-m transects at Yawzi Point were compared between storm episodes using a Mann Whitney U-test.Multivariate community structure was compared before and after storms using non-metric multidimensional scale (nMDS) and Bray Curtis dissimilarities calculated for scleractinian abundance by lowest taxonomic resolution, and for FG.For PRS (both coral and FG), and FG at Yawzi Point and  [ table of contents | back to top ] Photoquadrats at Yawzi Point and Tektite were recorded using cameras attached to a framer that held them perpendicular to the reef.

Coverage Spatial Extent: Lat:18.32 Lon:18.32 Temporal Extent
: 1995 -2017 Tektite, data were square-root transformed.For coral cover at Yawzi Point and Tektite, pre- added conventional header with dataset name, PI name, version date modified parameter names to conform with BCO-DMO naming conventions [ table of contents | back to top ]