Seasonal spatial distribution patterns of AmphiOctopus ovulum in the East China Sea: current status future projections under various climate change scenarios DOI Creative Commons
Linlin Yang,

Min Xu,

Yan Cui

et al.

Frontiers in Marine Science, Journal Year: 2025, Volume and Issue: 12

Published: April 1, 2025

Currently, there is also little up to date information on the current population status and life history traits of AmphiOctopus ovulum , a very often seen cephalopod species in East China Sea. It therefore important figure out seasonal spatial distribution this species, both terms number biomass, environmental variables which determine them. Additionally, climate change plays an role determining characteristics individual thus ecosystems they inhabit. We set understand responses A. habitat make projections based scenarios described IPCC’s SSP1-2.6 SSP5-8.5 criteria. carried bottom trawling surveys Sea region during 2018 2019 fill knowledge gap. Our results showed that average size values ranged from 17.80−43.00 g·ind -1 spring 23.49−33.00 summer; measured sea temperature, salinity, depth value ranges were 10.81−27.06°C, 31.73–35.25‰, 91–103 m independently winter. study was distributed area between 27°–29°N, 122.5°–125°E autumn, expanded into 26.5°–32.5°N, 121°–124.5°E The core centered 27.5°–28°N, 122.5°–123.5°E, can be expected expand northeast southwest under most likely global warming scenarios. will benefit development suitable conservation measures for habitats, incorporate impacts fisheries management programs.

Language: Английский

Seasonal spatial distribution patterns of AmphiOctopus ovulum in the East China Sea: current status future projections under various climate change scenarios DOI Creative Commons
Linlin Yang,

Min Xu,

Yan Cui

et al.

Frontiers in Marine Science, Journal Year: 2025, Volume and Issue: 12

Published: April 1, 2025

Currently, there is also little up to date information on the current population status and life history traits of AmphiOctopus ovulum , a very often seen cephalopod species in East China Sea. It therefore important figure out seasonal spatial distribution this species, both terms number biomass, environmental variables which determine them. Additionally, climate change plays an role determining characteristics individual thus ecosystems they inhabit. We set understand responses A. habitat make projections based scenarios described IPCC’s SSP1-2.6 SSP5-8.5 criteria. carried bottom trawling surveys Sea region during 2018 2019 fill knowledge gap. Our results showed that average size values ranged from 17.80−43.00 g·ind -1 spring 23.49−33.00 summer; measured sea temperature, salinity, depth value ranges were 10.81−27.06°C, 31.73–35.25‰, 91–103 m independently winter. study was distributed area between 27°–29°N, 122.5°–125°E autumn, expanded into 26.5°–32.5°N, 121°–124.5°E The core centered 27.5°–28°N, 122.5°–123.5°E, can be expected expand northeast southwest under most likely global warming scenarios. will benefit development suitable conservation measures for habitats, incorporate impacts fisheries management programs.

Language: Английский

Citations

0