Sara M. Lewis scite author profile

Experimental manipulations of grazing intensity were used to examine the role of herbivorous fishes in the families Acanthuridae (surgeonfishes) and Scaridae (parrotfishes) in determining distributions and abundances of benthic species within and among shallow tropical reef habitats. A back reef habitat along the Belizean barrier reef was characterized by a diverse benthic assemblage of algal turfs, coralline algae, and the coral Porites astreoides, but by extremely low macroalgal abundance. In contrast, several nearby shallow habitats were dominated by dense stands of several macroalgal species. Experimental reduction of herbivorous fish grazing in the back reef (achieved by constructing exclosures) rapidly and dramatically altered existing patterns of benthic species composition and species abundances. After 10 wk of reduced herbivory, total macroalgal abundance increased significantly in herbivore exclusion areas relative to unmanipulated controls, and was correlated with decreased percent cover of available space, several algal turf species, crustose coralline algae, and Porites. Some macroalgal species were able to directly overgrow and kill portions of Porites colonies within herbivore exclusion treatments. Successful recruitment and growth of several algal species under experimentally reduced herbivory indicated that macroalgal species distributions may be limited by herbivory rather than by lack of spore availability or unsuitable physical conditions. Algal turfs characteristic of many reef habitats appear to represent herbivore-tolerant assemblages, persisting under high grazing intensity but responding rapidly to reduced herbivory with increased abundances, morphological changes, and altered reproductive status. These results suggest that herbivorous fish grazing profoundly influences benthic species distributions and abundances within some tropical reef habitats.Spatial variation in herbivory appears to be of fundamental importance in determining regional patterns of benthic community structure on tropical reefs. The spatial mosaic of benthic community composition among shallow reef habitats was associated with patterns of grazing intensity by herbivorous fishes. Several reef habitats supporting dense macroalgal stands represented spatial refuges from herbivory, with low herbivorous fish densities and reduced grazing intensities. Transplant experiments revealed that algal species characteristic of these low-herbivory habitats were highly susceptible to grazing by herbivorous fishes. Spatial heterogeneity in grazing intensity may contribute to high regional diversity among tropical reef habitats by maintaining different benthic species assemblages under fundamentally distinct selective regimes.

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Impact of coral predators on tropical reefs

Rotjan

Lewis²

2008

Mar. Ecol. Prog. Ser.

304

256

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It is well known that herbivores have numerous and diverse impacts on plant and algal fitness, community structure and ecosystem function. The importance of corallivory as a selective force, however, has been underestimated. Corallivores, or consumers of live coral tissue, employ a wide variety of feeding strategies and can be obligate or facultative coral feeders. Our literature review reveals a complex array of corallivores across the globe, represented by 11 families of fishes and 5 invertebrate phyla and totaling over 160 species known to consume scleractinian corals worldwide. Importantly, although these corallivores span a wide taxonomic range, we found that they have been reported to feed on relatively few genera of hard corals, specifically, on only 28 scleractinian genera worldwide. Damage by corallivores ranges from minor to lethal, but there is a growing body of evidence to support that even limited removal of tissue or skeletal structures has growth and/or fitness consequences for a scleractinian coral colony. In light of increasing reef stressors and diminishing coral populations, we suggest that the role of corallivores in reef trophodynamics is more complex than appreciated previously.

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The impact of artificial light at night on nocturnal insects: A review and synthesis

Owens

Lewis

2018

Ecology and Evolution

265

201

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In recent decades, advances in lighting technology have precipitated exponential increases in night sky brightness worldwide, raising concerns in the scientific community about the impact of artificial light at night (ALAN) on crepuscular and nocturnal biodiversity. Long‐term records show that insect abundance has declined significantly over this time, with worrying implications for terrestrial ecosystems. The majority of investigations into the vulnerability of nocturnal insects to artificial light have focused on the flight‐to‐light behavior exhibited by select insect families. However, ALAN can affect insects in other ways as well. This review proposes five categories of ALAN impact on nocturnal insects, highlighting past research and identifying key knowledge gaps. We conclude with a summary of relevant literature on bioluminescent fireflies, which emphasizes the unique vulnerability of terrestrial light‐based communication systems to artificial illumination. Comprehensive understanding of the ecological impacts of ALAN on diverse nocturnal insect taxa will enable researchers to seek out methods whereby fireflies, moths, and other essential members of the nocturnal ecosystem can coexist with humans on an increasingly urbanized planet.

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International scientists formulate a roadmap for insect conservation and recovery

et al. 2020

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Flash Signal Evolution, Mate Choice, and Predation in Fireflies

Lewis

Cratsley

2008

Annu. Rev. Entomol.

248

163

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Many key advances in our understanding of firefly biology and signaling have been made over the past two decades. Here we review this recent research, which includes new phylogenetic results that shed light on the evolution of courtship signal diversity within the family Lampyridae, new insights into firefly flash control, and the discovery of firefly nuptial gifts. We present a comprehensive overview of sexual selection in lampyrids, including evidence from Photinus fireflies that females choose their mates on the basis of male flash signals, and discuss the importance of examining both precopulatory and postcopulatory sexual selection in this group. Finally, we review recent findings on firefly chemical defenses, and discuss their implications for flash signal evolution in response to generalist predators as well as specialist predatory fireflies. This review provides new insight into how firefly flash signals have been shaped by the dual evolutionary processes of sexual selection (mate choice) and natural selection (predation), and proposes several exciting directions for future research.

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Sara M. Lewis

The Role of Herbivorous Fishes in the Organization of a Caribbean Reef Community

Impact of coral predators on tropical reefs

The impact of artificial light at night on nocturnal insects: A review and synthesis

International scientists formulate a roadmap for insect conservation and recovery

Flash Signal Evolution, Mate Choice, and Predation in Fireflies

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