Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Assessing trophic adaptability is critical for understanding the response of predatory fishes to climate change: a case study of Pomatomus saltatrix in a global hotspot

Assessing trophic adaptability is critical for understanding the response of predatory fishes to... There is a growing need to incorporate biotic interactions, particularly those between predators and their prey, when predicting climate-driven shifts in marine fishes. Predators dependent on a narrow range of prey species should respond rapidly to shifts in the distribution of their prey, whereas those with broad trophic adaptability may respond to shifts in their prey by altering their diet. Small pelagic fishes are an extremely important component of the diet of many marine predators. However, their populations are expected to shift in distribution and fluctuate in abundance as the climate changes. We conducted a comparative study of the seasonal diet of adult Pomatomus saltatrix over two periods (June–December 2006 and 2012) and examined the available data on small pelagic fishes biomass in a global hotspot (the coastal region of southern Angola, southern Africa) to gain an understanding of the tropic adaptability of the species. Despite a drop (630 000 t to 353 000 t) in the abundance of their dominant prey (Sardinella aurita) in the region, it remained the most important prey item during both study periods (Period 1 = 99.3% RI, Period 2 = 85.3% RI, where %RI is a ranking index of relative importance). However, the diet during Period 2 was supplemented with prey typically associated with the nearshore zone. The seasonal data showed that P. saltatrix were capable not only of switching their diet from S. aurita to other prey items, but also of switching their trophic habitat from the pelagic to the nearshore zone. These findings suggest that P. saltatrix will not necessarily co-migrate if there is a climate-driven shift in the distribution of small pelagic fishes (their dominant prey). Accordingly, understanding the trophic adaptability of predators is critical for understanding their response to the impacts of climate change. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png African Journal of Marine Science Taylor & Francis

Assessing trophic adaptability is critical for understanding the response of predatory fishes to climate change: a case study of Pomatomus saltatrix in a global hotspot

Download PDF

Assessing trophic adaptability is critical for understanding the response of predatory fishes to climate change: a case study of Pomatomus saltatrix in a global hotspot

Abstract

There is a growing need to incorporate biotic interactions, particularly those between predators and their prey, when predicting climate-driven shifts in marine fishes. Predators dependent on a narrow range of prey species should respond rapidly to shifts in the distribution of their prey, whereas those with broad trophic adaptability may respond to shifts in their prey by altering their diet. Small pelagic fishes are an extremely important component of the diet of many marine predators....
Loading next page...
 
/lp/taylor-francis/assessing-trophic-adaptability-is-critical-for-understanding-the-SFKlgUmPpd
Publisher
Taylor & Francis
Copyright
© 2016 NISC (Pty) Ltd
ISSN
1814-2338
eISSN
1814-232X
DOI
10.2989/1814232X.2016.1249027
Publisher site
See Article on Publisher Site

Abstract

There is a growing need to incorporate biotic interactions, particularly those between predators and their prey, when predicting climate-driven shifts in marine fishes. Predators dependent on a narrow range of prey species should respond rapidly to shifts in the distribution of their prey, whereas those with broad trophic adaptability may respond to shifts in their prey by altering their diet. Small pelagic fishes are an extremely important component of the diet of many marine predators. However, their populations are expected to shift in distribution and fluctuate in abundance as the climate changes. We conducted a comparative study of the seasonal diet of adult Pomatomus saltatrix over two periods (June–December 2006 and 2012) and examined the available data on small pelagic fishes biomass in a global hotspot (the coastal region of southern Angola, southern Africa) to gain an understanding of the tropic adaptability of the species. Despite a drop (630 000 t to 353 000 t) in the abundance of their dominant prey (Sardinella aurita) in the region, it remained the most important prey item during both study periods (Period 1 = 99.3% RI, Period 2 = 85.3% RI, where %RI is a ranking index of relative importance). However, the diet during Period 2 was supplemented with prey typically associated with the nearshore zone. The seasonal data showed that P. saltatrix were capable not only of switching their diet from S. aurita to other prey items, but also of switching their trophic habitat from the pelagic to the nearshore zone. These findings suggest that P. saltatrix will not necessarily co-migrate if there is a climate-driven shift in the distribution of small pelagic fishes (their dominant prey). Accordingly, understanding the trophic adaptability of predators is critical for understanding their response to the impacts of climate change.

Journal

African Journal of Marine ScienceTaylor & Francis

Published: Dec 2, 2016

Keywords: bluefish; diet; feeding; predator; shad; small pelagic fishes

References

  • Regime shifts in the Humboldt Current ecosystem
  • The importance of biotic interactions for modelling species distributions under climate change
  • Individual specialization and trophic adaptability of northern pike (Esox lucius): an isotope and dietary analysis
  • Changes in abundance of the northern Benguela sardine stock during the decade 1990–2000, with comments on the relative importance of fishing and the environment
  • Foraging habits of bluefish, Pomatomus saltatrix, on the U.S. east coast continental shelf
  • Ecology of juvenile bluefish, Pomatomus saltatrix, in Maryland coastal waters
  • Fluctuations in abundance of small and mid-size pelagics
  • Has the fishery contributed to a major shift in the distribution of South African sardine?
  • Cape cormorants decrease, move east and adapt foraging strategies following eastward displacement of their main prey
  • Implications for seabirds off South Africa of a long-term change in the distribution of sardine
  • Small pelagics in upwelling systems: patterns of interaction and structural changes in ‘‘wasp-waist’’ ecosystems
  • Processes and patterns of interactions in marine fish populations: an ecosystem perspective
  • Making mistakes when predicting shifts in species range in response to global warming
  • Trophic role of small pelagic fishes in a tropical upwelling ecosystem
  • Climate and the match or mismatch between predator requirements and resource availability
  • Influence of the sardine run on selected nearshore predatory teleosts in KwaZulu-Natal
  • Conjectures on future climate effects on marine ecosystems dominated by small pelagic fish
  • Spatial match–mismatch in the Benguela upwelling zone: should we expect chlorophyll and sea-surface temperature to predict marine predator distributions?
  • Diet and habitat use by bluefish, Pomatomus saltatrix, in a Chesapeake Bay estuary
  • Environmental change and the phenology of European aphids
  • Bait attraction affects the performance of remote underwater video stations in assessment of demersal fish community structure
  • Identification of global marine hotspots: sentinels for change and vanguards for adaptation action
  • Synthesis: climate effects on biodiversity, abundance and distribution of marine organisms in the Benguela
  • Comparing early life history strategies of Pomatomus saltatrix: a global approach
  • Can round goby (Neogobius melanostomus) caught by rod and line be used for diet analysis?
  • A transboundary study of the pelagic fish stocks of southern Angola and northern Namibia
  • Sardine and anchovy regime fluctuations of abundance in four regions of the world oceans: a workshop report
  • Seasonal variation in the diets of bluefish, Pomatomus saltatrix (Pomatomidae) and striped weakfish, Cynoscion guatucupa (Sciaenidae) in southern Brazil: implications of food partitioning
  • A comparison of univariate and multivariate numerical and graphical techniques for determining inter-and intra-specific feeding relationships in estuarine fish
  • Diet of Cape gannet and Cape cormorant off Walvis Bay, 1958–1959
  • Surface thermal characteristics of the Angola-Benguela front
  • The origin of Fulton’s condition factor—setting the record straight
  • Diet composition in San Francisco Estuary striped bass: does trophic adaptability have its limits?
  • Diet composition and trophic levels of marine mammals
  • Decadal variation in the trans-Pacific migration of northern bluefin tuna (Thunnus thynnus) coherent with climate-induced change in prey abundance
  • Ocean warming affects the distribution and abundance of resident fishes by changing their reproductive scope
  • Characteristics and economic contribution of a developing recreational fishery in southern Angola
  • Ocean warming, a rapid distributional shift, and the hybridization of a coastal fish species
  • Aspects of the biology and fisheries of an economically important sparid Dentex macrophthalmus (Bloch 1791) in the Namibe Province, Angola
  • The biology, life history and management needs of a large sciaenid fish, Argyrosomus coronus, in Angola
  • Resolving the effect of climate change on fish populations
  • Interactions between bluefish Pomatomus saltatrix (L.) and coastal sea-cage farms in the Mediterranean Sea
  • Seasonal and interannual patterns of distribution and diet of bluefish within a Middle Atlantic bight estuary in relation to abiotic and biotic factors
  • Large-and mesoscale features of the Angola-Benguela front
  • The feeding habits of six pelagic and predatory teleosts in eastern Cape coastal waters (South Africa)
  • Global multi-decadal ocean climate and small-pelagic fish population
  • Enhancing species distribution modeling by characterizing predator–prey interactions
  • Predicting species distribution and abundance responses to climate change: why it is essential to include biotic interactions across trophic levels
  • Seasonal and interannual fluctuations of the Angola–Benguela Frontal Zone (ABFZ) using 4.5 km resolution satellite imagery from 1982 to 1999
  • Ecological responses to recent climate change
  • The role of biotic interactions in shaping distributions and realised assemblages of species: implications for species distribution modelling