Supply-Side Ecology Works Both Ways: The Link Between Benthic Adults, Fecundity, and Larval Recruits

Hughes, Terence P.; Baird, Andrew H.; Dinsdale, Elizabeth A.; Moltschaniwskyj, NA; Pratchett, Morgan S.; Tanner, Jason E.; Willis, Bette L.

doi:10.1890/0012-9658(2000)081[2241:ssewbw]2.0.co;2

Cited by 364 publications

(240 citation statements)

References 44 publications

(51 reference statements)

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“…Tracking large fluctuations in the numbers of recruits at a focal study area cannot resolve whether most larvae died or were transported to neighboring locales beyond this area of inference (Morgan 1995). In contrast, sampling over large spatial and long temporal scales has demonstrated that larval production and recruitment can be coupled (Robertson et al 1988;Hughes et al 2000) and oceanographic patterns can result in predictable spatial changes in populations and communities (Yoshioka 1982;Broitman et al 2008;Shanks et al 2010).…”

mentioning

confidence: 99%

Limited recruitment during relaxation events: Larval advection and behavior in an upwelling system

Morgan

Fisher

McAfee

et al. 2012

Limnology & Oceanography

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We capitalized on a long-term record of larval recruitment and a distinctive oceanographic signature to reveal how changes in ocean conditions affect larval advection, behavior, and recruitment in a region of strong, persistent upwelling and recruitment limitation. We repeatedly sampled the vertical and horizontal distribution of a larval assemblage and ocean conditions during infrequent relaxations of prevailing upwelling winds near Bodega Bay, California. During prolonged relaxation events, a poleward, coastal, boundary current imported low-salinity surface waters that were devoid of larvae to the study area. The resident larval assemblage was restricted to cold, saline, bottom waters and pushed offshore while diel vertical migrations were suppressed. Hence, changes in oceanographic conditions strongly affected behaviorally mediated larval distributions, revealing the reason that few species recruit during relaxation events in this region. During relaxation events in upwelling regions, poleward coastal boundary currents will force larvae offshore throughout the water column at small headlands and in seaward-flowing bottom currents at straight coastlines, but recruitment may decrease markedly only near estuaries where few larvae will arrive in low-salinity surface waters. Targeted profiling of larval assemblages complements widespread monitoring of recruitment from shore and is necessary to determine how changing ocean conditions affect larval distributions, recruitment dynamics, and the connectivity of populations.

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confidence: 99%

Limited recruitment during relaxation events: Larval advection and behavior in an upwelling system

Morgan

Fisher

McAfee

et al. 2012

Limnology & Oceanography

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“…First principles suggest why organisms in some places should produce more offspring than those in other places, e.g., due to genetic or environmental variation. Yet few empirical examples (3)(4)(5)(6)(7)(8) exist from marine populations of spatial variation in reproductive output at scales relevant to management (10s to 100s of kilometers). Moreover, marine population models for reserve design often include the assumption that the coastal ocean is a wellmixed and fairly uniform environment, where potential recruits to the adult populations are part of a global ''pool'' (9).…”

mentioning

confidence: 99%

Barnacle reproductive hotspots linked to nearshore ocean conditions

Leslie

Breck

Chan

et al. 2005

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

112

103

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Coastal marine ecosystems provide important ecosystem services to human populations worldwide. Understanding the contexts in which a species has markedly higher reproductive output is vital for effective management and conservation of these valuable and highly impacted systems. We documented reproductive hotspots along the Oregon coast for an ecologically significant marine invertebrate, the intertidal barnacle Balanus glandula. Greater larval production in both natural and experimental populations was associated with higher primary productivity in the adjacent nearshore ocean, providing strong evidence for bottom-up forcing. Mean cumulative larval production per 100 cm 2 in natural barnacle populations in the region of higher primary productivity was almost 5؋ that of populations in the less productive region. Mean estimated larval production per individual in experimental populations in the region of higher primary productivity was >2؋ that of populations in the region of lower productivity, and mean larval production per 100 cm 2 was >120؋ greater in the region of higher productivity. Our results highlight the importance of spatial heterogeneity in reproduction and other ecological processes in the marine environment and provide a mechanistic basis for evaluating the relative contributions of different sites when designing marine reserves and other protected areas. Our findings also advance the understanding of the role of bottom-up influences on population and community dynamics and contribute data for the next generation of models of marine community dynamics.Balanus glandula ͉ bottom-up effects ͉ intertidal ecosystems ͉ marine ecology ͉ marine reserves

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“…However, at some broader geographic scale (within or beyond Casco Bay), mussel recruit and adult abundances must be connected, as Hughes et al (2000) showed for corals on the Great Barrier Reef; this indeed is the basis of metapopulation theory and standard stock-recruitment models.…”

Section: Spatial Decoupling Of Adult and Recruit Abundancesmentioning

confidence: 93%

Recruitment, abundance, and predation on the blue mussel (Mytilus edulis) on northeastern estuarine rocky shores

2015

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Abstract. We report on patterns of abundance, recruitment, and predation on the blue mussel (Mytilus edulis) in three human-dominated estuaries in the northeastern United States. Through replicate field experiments and observational studies at multiple sites nested within each of the three estuaries, we investigated the relative influences of local and regional scale variation in select bottom-up and top-down factors on blue mussel populations on wave-protected rocky shores. The most striking result was the decoupling between adult abundance and recruitment: mussel recruitment rates were highest in the most northern estuary, Casco Bay, while adult abundances were highest in the most southern estuary, Long Island Sound. We detected evidence of top-down forcing on adult abundance by consumers in the two more southern estuaries, Narragansett Bay and Long Island Sound, but not in Casco Bay. Finally, we observed some indications of bottom-up forcing on mussel abundance and recruitment at the withinestuary scale, but these signals were not consistent among estuaries or across the responses measured (e.g., adult abundances and recruitment rates). Our results support previous work demonstrating the importance of both top-down and bottom-up influences on rocky shore populations, and also highlight how future research-particularly integrating studies of the different ontogenetic stages of mussels-could further advance understanding of biological population dynamics in this and other systems.

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Supply-Side Ecology Works Both Ways: The Link Between Benthic Adults, Fecundity, and Larval Recruits

Cited by 364 publications

References 44 publications

Limited recruitment during relaxation events: Larval advection and behavior in an upwelling system

Limited recruitment during relaxation events: Larval advection and behavior in an upwelling system

Barnacle reproductive hotspots linked to nearshore ocean conditions

Recruitment, abundance, and predation on the blue mussel (Mytilus edulis) on northeastern estuarine rocky shores

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