Social–ecological feedbacks drive spatial exploitation in a northern freshwater fishery: A halo of depletion

Wilson, Kyle L.; Foos, Aaron; Barker, Oliver E.; Farineau, Anne; Gisi, Joe De

doi:10.1111/1365-2664.13563

Cited by 20 publications

(22 citation statements)

References 53 publications

(133 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This finding is consistent with evidence from studies on aggregated angling effort dynamics in response to changes in fish abundances (e.g. Mee et al., 2016; Post et al., 2008; Wilson et al., 2020) and is also supported by research showing that catch is very important to most anglers when choosing a fishing site (Hunt et al., 2019). Catch satisfies many different aspects of the fishing experience.…”

Section: Discussionsupporting

confidence: 90%

Recreational angler satisfaction: What drives it?

2021

View full text Add to dashboard Cite

Satisfaction is the reward that recreational anglers receive from their experiences, and it constitutes a relevant management target. Angler satisfaction also shapes preferences for regulations, compliance with rules and general angler behaviours. Because of its central role in recreational fisheries management, it is important to understand what drives angler satisfaction. Our objective was to study the catch and non‐catch‐related determinants of recreational angler satisfaction using a standardized literature search and synthesizing the literature using meta‐analytical techniques. After identifying and screening 279 papers, we obtained K = 172 effect sizes extracted from N = 23 studies that met our inclusion criteria. A three‐level random‐effects model on Pearson's R, derived from studies relating component satisfaction to overall satisfaction assuming a sum‐of‐satisfaction model, was fitted. The aggregated effect sizes revealed that catch‐related (i.e. catch rate, size of caught fish, fish harvest) and two non‐catch‐related components (i.e. access to fishing sites and crowding) were most related to angler satisfaction. Other non‐catch components (e.g. environmental quality, facilities, perception of relaxation quality) also contributed to angler satisfaction but were of less importance, more variable across studies and in some cases not significant (e.g. perceived water quality, quality of social experience). We conclude changes to access to fishing sites, crowding and a reduction in catch qualities, will in many cases produce dissatisfied anglers. In the absence of local studies, focusing management attention on these components can be recommended if the aim is to satisfy anglers or avoid managerial or social issues that emerge from dissatisfied anglers.

show abstract

Section: Discussionsupporting

confidence: 90%

Recreational angler satisfaction: What drives it?

2021

View full text Add to dashboard Cite

show abstract

“…The proximity of beavers to cottonwood ( Populus fremontii ) populations ultimately shapes cottonwood reproduction and population dynamics. For social‐ecological systems such as recreational fisheries, angler travel time and trip context (day vs. multi‐day) can create strong coupled feedbacks between anglers and waterbodies, leading to halos of fish depletion near urban centers (Wilson et al 2020). We provide further evidence that location and proximity between people and natural resources is a prominent and important feature that ultimately contributes to the structuring of social‐ecological systems.…”

Section: Discussionmentioning

confidence: 99%

“…The proximity of beavers to cottonwood (Populus fremontii) populations ultimately shapes cottonwood reproduction and population dynamics. For social-ecological systems such as recreational fisheries, angler travel time and trip context (day vs. multi-day) can create strong coupled feedbacks between anglers and waterbodies, leading to halos of fish depletion near urban centers (Wilson et al 2020). We March 2021 STRUCTURED ANGLER-RESOURCE RELATIONSHIPS Article e02272; page 3…”

Section: Discussionmentioning

confidence: 99%

Temporal invariance of social‐ecological catchments

Kaemingk

Bender

Chizinski

et al. 2021

Ecological Applications

View full text Add to dashboard Cite

Natural resources such as waterbodies, public parks, and wildlife refuges attract people from varying distances on the landscape, creating “social‐ecological catchments.” Catchments have provided great utility for understanding physical and social relationships within specific disciplines. Yet, catchments are rarely used across disciplines, such as its application to understand complex spatiotemporal dynamics between mobile human users and patchily distributed natural resources. We collected residence ZIP codes from 19,983 angler parties during 2014–2017 to construct seven angler–waterbody catchments in Nebraska, USA. We predicted that sizes of dense (10% utilization distribution) and dispersed (95% utilization distribution) angler–waterbody catchments would change across seasons and years as a function of diverse resource selection among mobile anglers. Contrary to expectations, we revealed that catchment size was invariant. We discuss how social (conservation actions) and ecological (low water quality, reduction in species diversity) conditions are expected to impact landscape patterns in resource use. We highlight how this simple concept and user‐friendly technique can inform timely landscape‐level conservation decisions within coupled social‐ecological systems that are currently difficult to study and understand.

show abstract

“…This theoretical prey gradient is commonly referred to as "Ashmole's halo" (12) and has been highly influential in shaping our understanding of the population dynamics, behavior, and life histories of seabirds (6,8,(11)(12)(13)(14) and other colonial centralplace foragers [e.g., seals (9), raptors (15), and human fishers (16)]. However, almost six decades since it was proposed, direct evidence that such "halos" form in nature is extremely scarce.…”

Section: Significancementioning

confidence: 99%

Direct evidence of a prey depletion “halo” surrounding a pelagic predator colony

Weber

Richardson

Brown

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

View full text Add to dashboard Cite

Colonially breeding birds and mammals form some of the largest gatherings of apex predators in the natural world and have provided model systems for studying mechanisms of population regulation in animals. According to one influential hypothesis, intense competition for food among large numbers of spatially constrained foragers should result in a zone of prey depletion surrounding such colonies, ultimately limiting their size. However, while indirect and theoretical support for this phenomenon, known as “Ashmole’s halo,” has steadily accumulated, direct evidence remains exceptionally scarce. Using a combination of vessel-based surveys and Global Positioning System tracking, we show that pelagic seabirds breeding at the tropical island that first inspired Ashmole’s hypothesis do indeed deplete their primary prey species (flying fish; Exocoetidae spp.) over a considerable area, with reduced prey density detectable >150 km from the colony. The observed prey gradient was mirrored by an opposing trend in seabird foraging effort, could not be explained by confounding environmental variability, and can be approximated using a mechanistic consumption–dispersion model, incorporating realistic rates of seabird predation and random prey dispersal. Our results provide a rare view of the resource footprint of a pelagic seabird colony and reveal how aggregations of these central-place foraging, marine top predators profoundly influence the oceans that surround them.

show abstract

Social–ecological feedbacks drive spatial exploitation in a northern freshwater fishery: A halo of depletion

Cited by 20 publications

References 53 publications

Recreational angler satisfaction: What drives it?

Recreational angler satisfaction: What drives it?

Temporal invariance of social‐ecological catchments

Direct evidence of a prey depletion “halo” surrounding a pelagic predator colony

Contact Info

Product

Resources

About