Investigating Seasonal Succession Patterns in Mesozooplankton Community Structure Following Hurricane Harvey

Topor, Zachary M.; Robinson, Kelly L.; Turcu, Andrea

doi:10.3389/fmars.2020.00462

Cited by 6 publications

(7 citation statements)

References 53 publications

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“…Additionally, attribution of changes in phytoplankton biomass or assemblage to changes in purely bottom‐up or environmental controls following a tropical cyclone may underestimate the potential for changes in grazer communities and grazing activity following such events. Increases in microzooplankton numbers (Wetz and Paerl 2008b) and time‐lagged grazing rates (Morison et al 2019) have been documented in the aftermath of storms, and recent study indicates increased mesozooplankton abundances in the nearshore waters of our study region following Hurricane Harvey (Topor et al 2020). Both microzooplankton and copepod grazing rates were quantified in October, January, and March during the same cruises and in the broader region prior to Hurricane Harvey in July, and these findings will be discussed in forthcoming papers.…”

Section: Discussionsupporting

confidence: 55%

Pico‐ and nanoplankton communities on a near to offshore transect along the continental shelf of the northwestern Gulf of Mexico in the aftermath of Hurricane Harvey

Kurtay

Prevost

Stauffer

2021

Limnology & Oceanography

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Hurricane Harvey delivered over 124 trillion liters of freshwater to the Texas-Louisiana coast and the northwestern Gulf of Mexico (GOM) in late August-early September 2017. Environmental conditions, size-fractionated phytoplankton biomass, and pico-and nanoplankton abundances (picocyanobacteria, picoeukaryotes, autotrophic, and heterotrophic nanoplankton) were characterized along nearshore-offshore transects prior to Hurricane Harvey (late July 2017) and in the 3 weeks to 6 months following the storm (September 2017 to March 2018). To understand the extent to which observed changes in the aquatic environment and plankton communities could be attributed to Hurricane Harvey (vs. seasonal or interannual variability), salinity, temperature, and phytoplankton biomass from historical data (2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018) were also analyzed. Nearshore stations from September and October 2017 showed significantly lower salinities and overall phytoplankton biomass compared to historical data. Inorganic nitrogen concentrations were minimal in October. Pico-and nanoplankton abundances were lower in September and October than prior to the storm, with the exception of picocyanobacteria. In contrast, post-storm biomass at mid-shelf stations was within the historical average, while pico-and nanoplankton abundances were higher. Offshore stations showed little change in biomass or abundances following the storm. Pre-storm assemblages of pico-and nanoplankton in July 2017 were distinct from those in post-storm months, and variance in these assemblages and specific group abundances was tied to inorganic nutrients, salinity, and temperature. These results point to significant changes in important members of the plankton that occurred in GOM continental shelf waters following a major hurricane, with important implications for oceanic food webs and biogeochemical cycles.Tropical cyclones, such as hurricanes, tropical depressions and storms, and typhoons have significant ecological effects on coastal systems, changing the population density and evenness of organisms ranging from vegetation to fauna with wind velocity, storm duration, and rainfall (Ackerman et al. 1991). Aquatic ecosystems are subject to direct impacts of tropical cyclones from wind, rainfall, and changes in water circulation, which trigger physical effects including water mixing, changes in stratification, and upwelling (Jullien et al. 2012). Most of this study has focused on impacts in estuaries (e.g., Valiela et al. 1998;Peierls et al. 2003;Hu and Muller-Karger 2007;, where tropical cyclones winds and river input can induce vertical mixing and result in the increase of suspended materials in shallow water columns (Hu & Muller-Karger 2007). The increased rainfall also accelerates river input which leads to hyposaline, high nitrogen and phosphorus conditions in the system (Peierls et al. 2003). Research on storm effects further offshore have largely focused on direct impacts of wind, circulation, sea surface temperature (S...

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Section: Discussionsupporting

confidence: 55%

Pico‐ and nanoplankton communities on a near to offshore transect along the continental shelf of the northwestern Gulf of Mexico in the aftermath of Hurricane Harvey

Kurtay

Prevost

Stauffer

2021

Limnology & Oceanography

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“…As energetic expressways between primary production and higher consumers, changes in the abundance and evenness of zooplankton communities impact energy transfer in coastal food webs. Large increases in coastal zooplankton abundance, like we see following Harvey 22 , can represent a flood of food resources for planktivorous consumers in the area (e.g., forage fish). Zooplankton abundance is often closely linked to larval fish recruitment success, with higher zooplankton abundances representing greater availability of prey in the water column 51 , but can also represent increased top-down control by zooplankton predating on larval fish 52 .…”

Section: Discussionmentioning

confidence: 79%

“…Each hurricane made landfall along the Texas and Louisiana coastline and were classified as ‘severe weather events’ for the Houston area by Texas A&M’s State Climatologist 30 . Zooplankton sampled after Hurricane Harvey in 2017 were collected at the established SEAMAP stations during September (21–24 Sept), and October–November (30 Oct–3 Nov) following Topor et al 22 .…”

Section: Methodsmentioning

confidence: 99%

“…Mesozooplankton were identified and enumerated following Topor et al 22 . Physical samples were homogenized in a graduated beaker using an aquarium bubbler and multiple aliquots (2 mL or 5 mL) were taken using a Henson–Stempel pipette.…”

Section: Methodsmentioning

confidence: 99%

“…Kurtay et al 20 reported decreases in overall phytoplankton biomass relative to historic levels and numerical increases of pico- and nanoplankton on the northwestern GOM shelf 2 months following Harvey. In the same area, Topor et al 22 reported higher abundances 1 month after the storm in September as well as subsequent shifts in mesozooplankton abundance and diversity relative to the 6 months following the storm. A caveat to these findings is that NWGOM zooplankton abundance is highly variable year-to-year 23 , 24 , and these results must be placed within historic context to determine if Harvey was indeed anomalous 20 , 22 .…”

Section: Introductionmentioning

confidence: 91%

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Multi-storm analysis reveals distinct zooplankton communities following freshening of the Gulf of Mexico shelf by Hurricane Harvey

Topor

Genung

Robinson

2022

Sci Rep

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Tropical cyclones can highly modify coastal ecosystems through interactions between their unique set of meteorological traits and an ecosystem’s antecedent conditions. As such, resultant changes to biological community structure are likely storm-specific, yet our understanding of cyclone effects on marine communities is limited compared to communities in terrestrial and freshwater habitats. Using northwestern Gulf of Mexico (NWGOM) mesozooplankton data, we tested: (1) for differences between storm and non-storm community structure and dispersion; (2) if post-storm communities varied between one another; (3) if salinity drove differences; and (4) if physical drivers of abundance and evenness varied between storm and non-storm communities. Mesozooplankton community structure following Hurricanes Harvey, Ike, Rita, and during five non-storm years were analyzed. Post-Ike, post-Rita, and non-storm communities were similar while post-Harvey communities were distinct from non-storm years. A structural equation model revealed stratification and abundance drove community evenness. Post-Harvey mesozooplankton were more abundant in low salinity waters; a pattern muted during non-storm years. NWGOM mesozooplankton community structure was generally resilient to hurricane effects, except when large changes in salinity occurred. Our findings suggest resource availability for planktivorous predators and energy transfer within coastal food webs is altered following cyclones with high precipitation rates.

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Hurricane Harvey Delivered a Massive Load of Mercury-Rich Sediment to Galveston Bay, TX, USA

Dellapenna

Hoelscher

Hill

et al. 2021

Estuaries and Coasts

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Investigating Seasonal Succession Patterns in Mesozooplankton Community Structure Following Hurricane Harvey

Cited by 6 publications

References 53 publications

Pico‐ and nanoplankton communities on a near to offshore transect along the continental shelf of the northwestern Gulf of Mexico in the aftermath of Hurricane Harvey

Pico‐ and nanoplankton communities on a near to offshore transect along the continental shelf of the northwestern Gulf of Mexico in the aftermath of Hurricane Harvey

Multi-storm analysis reveals distinct zooplankton communities following freshening of the Gulf of Mexico shelf by Hurricane Harvey

Hurricane Harvey Delivered a Massive Load of Mercury-Rich Sediment to Galveston Bay, TX, USA

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