Predation risk and resource abundance mediate foraging behaviour and intraspecific resource partitioning among consumers in dominance hierarchies

AbstractDominance hierarchies and unequal resource partitioning among individuals are key mechanisms of population regulation. The strength of dominance hierarchies can be influenced by size dependent trade-offs between foraging and predator avoidance whereby competitively inferior subdominants can access a larger proportion of limiting resources by accepting higher predation risk. Foraging-predation risk trade-offs also depend on resource abundance. Yet, few studies have manipulated predation risk and resource abundance simultaneously; consequently, their joint effect on resource partitioning within dominance hierarchies are not well understood. We addressed this gap by measuring behavioural responses of masu salmon to experimental manipulations of predation risk and resource abundance in a natural temperate forest stream. Responses to predation risk depended on body size such that larger dominants exhibited more risk-averse behaviour (e.g., lower foraging and appearance rates) relative to smaller subdominants after exposure to a simulated predator. The magnitude of this effect was lower when resources were elevated, indicating that dominant fish accepted a higher predation risk to forage on abundant resources. However, the influence of resource abundance did not extend to the population level, where predation risk altered the distribution of foraging attempts (a proxy for energy intake) from being skewed towards large individuals to being skewed towards small individuals after predator exposure. Our results imply that size dependent foraging-predation risk trade-offs can mediate the strength of dominance hierarchies by allowing competitively inferior subdominants to access resources that would otherwise be monopolized.Author Contributions:SN, TS, and RU designed the study and performed the fieldwork; SN analyzed the data and wrote the manuscript with input from all authors.

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Design of experimental food patches to measure foraging intensity for octopus: a case study with the giant Pacific octopus Enteroctopus dofleini

Journal of Molluscan Studies ◽

10.1093/mollus/eyaa039 ◽

2020 ◽

Author(s):

Stephanie Chancellor ◽

David Scheel ◽

Joel S Brown

Keyword(s):

Predation Risk ◽

Foraging Behaviour ◽

Habitat Preferences ◽

High Tide ◽

Intertidal Habitat ◽

Camera System ◽

Subtidal Habitat ◽

Enteroctopus Dofleini ◽

Nontarget Species

ABSTRACT In a study of the foraging behaviour of the giant Pacific octopus Enteroctopus dofleini, we designed two types of experimental food patches to measure habitat preferences and perceptions of predation risk. The first patch successfully measured giving-up densities (GUDs), confirmed by octopus prey presence and higher foraging at sites with historically greater octopus presence. However, nontarget foragers also foraged on these experimental food patches. Our second floating patch design successfully excluded nontarget species from subtidal patches, and from intertidal patches at high tide, but allowed for foraging by E. dofleini. The second design successfully measured GUDs and suggested that octopus preferred foraging in a subtidal habitat compared to an intertidal habitat. We ascribe the higher GUD in the intertidal habitat to its higher predation risk relative to the subtidal habitat. The second patch design seems well suited for E. dofleini and, in conjunction with a camera system, could be used to provide behavioural indicators of the octopus's abundance, perceptions of habitat quality and predation risk.

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Foraging behaviour of the Peaceful Dove (Geopelia striata) in relation to predation risk: group size and predator cues in a natural environment

Emu - Austral Ornithology ◽

10.1071/mu12023 ◽

2013 ◽

Vol 113 (1) ◽

pp. 1-7 ◽

Cited By ~ 2

Author(s):

Lei (Stanley) Tang ◽

Lin Schwarzkopf

Keyword(s):

Predation Risk ◽

Group Size ◽

Natural Environment ◽

Foraging Behaviour ◽

Risk Group ◽

Predator Cues

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Modification of 0+ perch foraging behaviour by indirect cues of predation risk

Ecology Of Freshwater Fish ◽

10.1111/j.1600-0633.2006.00139.x ◽

2006 ◽

Vol 15 (2) ◽

pp. 118-124 ◽

Cited By ~ 9

Author(s):

J. Wanzenbock ◽

V. N. Mikheev ◽

A. F. Pasternak

Keyword(s):

Predation Risk ◽

Foraging Behaviour ◽

Indirect Cues

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Predation risk and distance to cover affect foraging behaviour in Namib Desert gerbils

Animal Behaviour ◽

10.1006/anbe.1993.1320 ◽

1993 ◽

Vol 46 (6) ◽

pp. 1243-1245 ◽

Cited By ~ 91

Author(s):

Jessica J. Hughes ◽

David Ward

Keyword(s):

Predation Risk ◽

Foraging Behaviour ◽

Namib Desert

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Resource partitioning by two syntopic sister species of butterflyfish (Chaetodontidae)

Journal of the Marine Biological Association of the United Kingdom ◽

10.1017/s0025315417001321 ◽

2017 ◽

Vol 98 (7) ◽

pp. 1767-1773 ◽

Cited By ~ 7

Author(s):

Ana M.R. Liedke ◽

Roberta M. Bonaldo ◽

Bárbara Segal ◽

Carlos E.L. Ferreira ◽

Lucas T. Nunes ◽

...

Keyword(s):

Puerto Rico ◽

Resource Partitioning ◽

Diet Composition ◽

Foraging Behaviour ◽

Nutritional Condition ◽

Ecological Communities ◽

Substrate Selection ◽

Feeding Rates ◽

Bite Rate ◽

Close Phylogenetic Relationship

Resource partitioning is considered one of the main processes driving diversification in ecological communities because it allows coexistence among closely related and ecologically equivalent species. We combined three complementary approaches, i.e. the evaluation of foraging behaviour, diet composition and nutritional condition (RNA:DNA ratio), to assess feeding by two closely related (sister) butterflyfishes that are syntopic in Puerto Rico. Chaetodon capistratus had a higher abundance and higher bite rate and selected octocorals and hard corals for feeding, whereas Chaetodon striatus fed preferentially on sandy substrates. Cnidarians and polychaetes were the most representative diet items for both species, but C. capistratus preferred the former (Feeding Index of 74.3%) and C. striatus the latter (Feeding Index of 60.4%). Similar RNA:DNA ratios for both species suggest that, although they differ in feeding rates and diet, C. capistratus and C. striatus have similar nutritional fitness. Therefore, these species are both zoobenthivores but show clear differences in their substrate selection. The differences in the use of foraging substrate by C. capistratus and C. striatus, despite their close phylogenetic relationship and similar diets, suggest that these species coexist by resource partitioning.

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Individual-level specialisation and interspecific resource partitioning in bees revealed by pollen DNA metabarcoding

10.1101/2021.08.01.454648 ◽

2021 ◽

Author(s):

Jan Klečka ◽

Michael Mikát ◽

Pavla Koloušková ◽

Jiří Hadrava ◽

Jakub Straka

Keyword(s):

Resource Partitioning ◽

Foraging Behaviour ◽

Plant Reproduction ◽

Short Term ◽

Temporal Scales ◽

Individual Level ◽

Multi Scale ◽

Foraging Preferences ◽

Dna Metabarcoding ◽

Flower Visiting

It is increasingly recognised that intraspecific variation in traits, such as morphology, behaviour, or diet is both ubiquitous and ecologically important. While many species of predators and herbivores are known to display high levels of between-individual diet variation, there is a lack of studies on pollinators. It is important to fill in this gap because individual-level specialisation of flower-visiting insects is expected to affect their efficiency as pollinators with consequences for plant reproduction. Accordingly, the aim of our study was to quantify the level of individual-level specialisation and foraging preferences, as well as interspecific resource partitioning, across different temporal scales in three co-occurring species of bees of the genus Ceratina (Hymenoptera: Apidae: Xylocopinae), C. chalybea, C. nigrolabiata, and C. cucurbitina. We conducted a field experiment where we provided artificial nesting opportunities for the bees and combined a short-term mark-recapture study with the dissection of the bees' nests to obtain repeated samples from individual foraging females and complete pollen provisions from their nests. Hence, we could study variation of the composition of pollen collected by the bees at different temporal scales. We used DNA metabarcoding based on the ITS2 locus to identify the composition of the pollen samples. We found that the composition of pollen carried on the bodies of female bees and stored in the brood provisions in their nests significantly differed among the three co-occurring species. At the intraspecific level, individual females consistently differed in their level of specialisation and in the composition of pollen carried on their bodies and stored in their nests. Our study thus provides evidence of consistent individual-level specialisation in pollinators across multiple temporal scales. We also demonstrate that higher generalisation at the species level stemmed from larger among-individual variation in diets as observed in other types of consumers, such as predators. Our study thus reveals how specialisation and foraging preferences of bees change from the scale of individual foraging bouts to complete pollen provisions accumulated in their nests over their lifetime. Such multi-scale view of foraging behaviour is necessary to improve our understanding of the functioning of plant-flower visitor communities.

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