. 2021 Mar 18;11(9):4898-4908.

doi: 10.1002/ece3.7398. eCollection 2021 May.

Fine-scale foraging behavior reveals differences in the functional roles of herbivorous reef fishes

Robert F Semmler¹, Simon J Brandl^{2

3

4}, Sally A Keith¹, David R Bellwood^{3

4}

Affiliations

¹ Lancaster Environment Centre Lancaster University Lancaster UK.
² Department of Marine Science Marine Science Institute University of Texas Austin Port Aransas TX USA.
³ ARC Centre of Excellence for Coral Reef Studies James Cook University Townsville QLD Australia.
⁴ College of Science and Engineering James Cook University Townsville QLD Australia.

PMID: 33976857
PMCID: PMC8093660
DOI: 10.1002/ece3.7398

Fine-scale foraging behavior reveals differences in the functional roles of herbivorous reef fishes

Robert F Semmler et al. Ecol Evol. 2021.

. 2021 Mar 18;11(9):4898-4908.

doi: 10.1002/ece3.7398. eCollection 2021 May.

Authors

Robert F Semmler¹, Simon J Brandl^{2

3

4}, Sally A Keith¹, David R Bellwood^{3

4}

Affiliations

¹ Lancaster Environment Centre Lancaster University Lancaster UK.
² Department of Marine Science Marine Science Institute University of Texas Austin Port Aransas TX USA.
³ ARC Centre of Excellence for Coral Reef Studies James Cook University Townsville QLD Australia.
⁴ College of Science and Engineering James Cook University Townsville QLD Australia.

PMID: 33976857
PMCID: PMC8093660
DOI: 10.1002/ece3.7398

Abstract

Efforts to understand and protect ecosystem functioning have put considerable emphasis on classifying species according to the functions they perform. However, coarse classifications based on diet or feeding mode often oversimplify species' contributions to ecological processes. Behavioral variation among superficially similar species is easily missed but could indicate important differences in competitive interactions and the spatial scale at which species deliver their functions. To test the extent to which behavior can vary within existing functional classifications, we investigate the diversity of foraging movements in three herbivorous coral reef fishes across two functional groups. We find significant variation in foraging movements and spatial scales of operation between species, both within and across existing functional groups. Specifically, we show that movements and space use range from low frequency foraging bouts separated by short distances and tight turns across a small area, to high frequency, far-ranging forays separated by wide sweeping turns. Overall, we add to the burgeoning evidence that nuanced behavioral differences can underpin considerable complementarity within existing functional classifications, and that species assemblages may be considerably less redundant than previously thought.

Keywords: complementarity; coral reefs; foraging behavior; functional traits; movement.

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Conflict of interest statement

The authors declare no conflicts of interest exist.

Figures

**FIGURE 1**
Photo of two *Siganus corallinus* individuals (credit: Victor Huertas)

**FIGURE 2**
Foraging paths and resulting size and distribution of short‐term feeding areas (direct observation). (a–c) Example foraging paths for all three species. Green = the parrotfish Sc. *schlegeli*, yellow and blue = the rabbitfishes, *Si. Vulpinus*, and *Si. corallinus*, respectively. Dots represent foraging locations, while lines represent vectors between foraging events. Path insets not scaled by area, but relative size can be seen in the wider figure. (d) Distribution of feeding areas (MCP) for each species on Big Vicki's Reef with inset showing location of Big Vicki's Reef on Lizard Island, colors as above

**FIGURE 3**
Relative size of daily foraging areas (acoustic telemetry). (a) Spatial distribution of daily foraging areas on Watson's Reef. Dotted and dashed lines mark the 95% Kernel Utilization Distributions (KUDs), while filled, transparent areas mark the 50% core areas. Fish numbers are given for all paired and the two singular individuals. Colors as above. (b) Location of Watson's Reef on Lizard Island

**FIGURE 4**
Differences in the six metrics used to evaluate foraging paths of the three species. Asterisks indicate significant differences among species via ANOVA. Si. *vulpinus* foraging movements are characterized by: large areas, wide turns, higher speeds, and longer interforay distances; Si. *corallinus* foraging movements are characterized by: small areas, sharp turns, low feeding frequency, low speed, and short interforay distances; Sc. *schlegeli* occupy intermediate positions but display the highest frequency of foraging. Boxplots represent the median and interquartile range of each foraging trait. Dashed lines separate the two grazing rabbitfishes from the scraping parrotfish

**FIGURE 5**
Nonmetric multidimensional scaling ordination depicting differences in foraging paths of three species: the rabbitfishes *Siganus vulpinus* (yellow), Si. *corallinus* (blue), and the parrotfish *Scarus schlegeli* (green). Convex hulls represent minimum convex polygons for all individuals of a species. Vectors represent the loadings

**FIGURE 6**
Feeding rate, movement rate, and feeding efficiency of the three species. Asterisks indicate significant differences among species via ANOVA. Boxplots represent the median and interquartile range of each foraging trait. Dashed lines separate the two grazing rabbitfishes from the scraping parrotfish

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Fine-scale foraging behavior reveals differences in the functional roles of herbivorous reef fishes

Affiliations

Fine-scale foraging behavior reveals differences in the functional roles of herbivorous reef fishes

Authors

Affiliations

Abstract

Conflict of interest statement

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