Habitat structure influences the survival and predator–prey interactions of early juvenile red king crab Paralithodes camtschaticus

Pirtle, Jodi L.; Eckert, Ginny L.; Stoner, Allan W.

doi:10.3354/meps09883

Cited by 42 publications

(18 citation statements)

References 49 publications

(88 reference statements)

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“…Smaller crab are more vulnerable to predators [68] and do not satiate predators as quickly [29], and thus a decrease in growth rate is likely to reduce the survival of a cohort to maturity. Similarly, lower calcium content may make crabs easier prey for crushing predators.…”

Section: Discussionmentioning

confidence: 99%

Effects of Ocean Acidification on Juvenile Red King Crab (Paralithodes camtschaticus) and Tanner Crab (Chionoecetes bairdi) Growth, Condition, Calcification, and Survival

et al. 2013

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Ocean acidification, a decrease in the pH in marine waters associated with rising atmospheric CO2 levels, is a serious threat to marine ecosystems. In this paper, we determine the effects of long-term exposure to near-future levels of ocean acidification on the growth, condition, calcification, and survival of juvenile red king crabs, Paralithodes camtschaticus, and Tanner crabs, Chionoecetes bairdi. Juveniles were reared in individual containers for nearly 200 days in flowing control (pH 8.0), pH 7.8, and pH 7.5 seawater at ambient temperatures (range 4.4–11.9 °C). In both species, survival decreased with pH, with 100% mortality of red king crabs occurring after 95 days in pH 7.5 water. Though the morphology of neither species was affected by acidification, both species grew slower in acidified water. At the end of the experiment, calcium concentration was measured in each crab and the dry mass and condition index of each crab were determined. Ocean acidification did not affect the calcium content of red king crab but did decrease the condition index, while it had the opposite effect on Tanner crabs, decreasing calcium content but leaving the condition index unchanged. This suggests that red king crab may be able to maintain calcification rates, but at a high energetic cost. The decrease in survival and growth of each species is likely to have a serious negative effect on their populations in the absence of evolutionary adaptation or acclimatization over the coming decades.

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Section: Discussionmentioning

confidence: 99%

Effects of Ocean Acidification on Juvenile Red King Crab (Paralithodes camtschaticus) and Tanner Crab (Chionoecetes bairdi) Growth, Condition, Calcification, and Survival

et al. 2013

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“…A second mechanism to explain why juvenile green crab mortality levels were unaffected by habitat is the exact opposite; juvenile green crabs may lack the ability to effectively use complex habitat to escape predation. Long et al (2015) suggested that responding to predator presence by engaging in cryptic behavior (i.e., hiding in complex habitat) may be a learned behavior, and in some crab species, refuge-seeking behavior is known to develop with size and age (Johnson et al 2008;Stoner et al 2010;Pirtle et al 2012). Under this hypothesis, we might expect that 'naïve' juvenile mortality would indeed be similar across habitat types, while the mud crabs (already adults in our experiment) would be expected to be more experienced and have a greater affinity for hiding in complex environments.…”

Section: The Influence Of Habitatmentioning

confidence: 99%

Hide and seek: habitat-mediated interactions between European green crabs and native mud crabs in Atlantic Canada

et al. 2016

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“…However, the majority of studies examining mechanistic links for an association between structured habitats and demersal fish species have focused on their role as refuges from predation, especially for juvenile life history stages (Love et al 1991;Gotceitas et al 1995; Ryer D r a f t et al 2004;Auster 2005;Pirtle et al 2012). It is likely that multiple mechanisms may be resulting in observed associations between demersal fishes and structured habitat.…”

Section: R a F T Introductionmentioning

confidence: 99%

Are fish associations with corals and sponges more than an affinity to structure? Evidence across two widely divergent ecosystems

Rooper

Goddard

Wilborn

2019

Can. J. Fish. Aquat. Sci.

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The role of deep-sea coral and sponge ecosystems as habitat for marine fishes has been widely studied, with many finding significant associations, especially for rockfishes. However, rockfishes also thrive in areas largely devoid of corals and sponges. We compared the use of deep-sea corals and sponges by fish species in two ecosystems. Rockfishes (Sebastes spp.) and Pacific cod (Gadus macrocephalus) densities were significantly correlated to structured seafloors at the scale of transects across both regions. Regional effects were not significant for most rockfish species and Pacific cod. At smaller scales only Pacific cod and rockfishes had significant associations with structure. The size of the individual fish and the size of the structure both had significant impacts on the distance of fish from structure, with smaller fish closer to structure and closer to smaller structure. Over half of the individual fishes surveyed were associated with sponges. The implication of this research is that the presence of structure increases the density of rockfishes, and removal of deep-sea corals and sponges is likely to reduce the overall density of rockfishes.

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Habitat structure influences the survival and predator–prey interactions of early juvenile red king crab Paralithodes camtschaticus

Cited by 42 publications

References 49 publications

Effects of Ocean Acidification on Juvenile Red King Crab (Paralithodes camtschaticus) and Tanner Crab (Chionoecetes bairdi) Growth, Condition, Calcification, and Survival

Effects of Ocean Acidification on Juvenile Red King Crab (Paralithodes camtschaticus) and Tanner Crab (Chionoecetes bairdi) Growth, Condition, Calcification, and Survival

Hide and seek: habitat-mediated interactions between European green crabs and native mud crabs in Atlantic Canada

Are fish associations with corals and sponges more than an affinity to structure? Evidence across two widely divergent ecosystems

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