Dispersal of yellow phase Japanese eels Anguilla japonica after recruitment in the Kojima Bay-Asahi River system, Japan

Kaifu, Kenzo; Tamura, Monami; Aoyama, Jun; Tsukamoto, Katsumi

doi:10.1007/s10641-010-9640-y

Cited by 63 publications

(60 citation statements)

References 38 publications

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“…For another temperate species, Japanese eel Anguilla japonica, a similar tendency has been reported, even though the differences shown in the studies were not statistically significant or were limited to a certain growth stage (Kotake et al 2005;Yokouchi et al 2008). However, a recent study has indicated the likelihood that Japanese eels have faster growth in saline water than in fresh water within the Kojima Bay-Asahi River system, where this study was conducted (Kaifu et al 2010). Faster growth enhances many fitness-related aspects of fishes, including a shorter amount of time to reach the adult stage and reproductive maturation and a decreased risk of predation (Hutchings 2006;Edeline 2007).…”

Section: Introductionsupporting

confidence: 71%

“…Anguillid species use both fresh and saline water habitats in their growth phase. A considerable number of studies found consistent divergences of life history patterns in five species of temperate eels that include river, estuarine and marine residents, and multihabitat users that move from one habitat to another once or more during their growth phase (Jessop et al 2002;Tzeng et al 2002;Arai et al 2003;Daverat et al 2005;Kotake et al 2005;Daverat & Tomas 2006;Shiao et al 2006;Kaifu et al 2010). A considerable number of studies found consistent divergences of life history patterns in five species of temperate eels that include river, estuarine and marine residents, and multihabitat users that move from one habitat to another once or more during their growth phase (Jessop et al 2002;Tzeng et al 2002;Arai et al 2003;Daverat et al 2005;Kotake et al 2005;Daverat & Tomas 2006;Shiao et al 2006;Kaifu et al 2010).…”

Section: Introductionmentioning

confidence: 99%

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Growth differences of Japanese eels Anguilla japonica between fresh and brackish water habitats in relation to annual food consumption in the Kojima Bay‐Asahi River system, Japan

Kaifu

Miller

Yada

et al. 2012

Ecology of Freshwater Fish

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To learn about the relationships between feeding and growth of temperate eels in freshwater and brackish water habitats, we analysed 533 yellow-phase Japanese eels Anguilla japonica collected in both types of habitats in southeastern Japan. Because male eels were very rare in each habitat (FW, N = 1; BW, N = 20), characteristics of female eels were compared between the different habitats. Annual food consumption was evaluated with the consideration of instantaneous food consumption and annual activity period. Stomach fullness index (stomach content weight/body weight) was used as an indicator of instantaneous food consumption. The ratios of number of months with eel catch to those when eel sampling was conducted were used as an indicator of activity period. Female yellow eels tended to be older and slower growing in fresh water (N = 78; age, mean ± SD = 7.9 ± 2.4 years; growth rate, 59.8 ± 14.0 mm year À1 ) than in brackish water (N = 229; age, 5.5 ± 1.8 years; growth rate, 90.1 ± 24.4 mm year À1 ). Irrespective of sex, yellow eels in brackish water had a higher stomach fullness index and a greater ratio of months with eel catches, indicating greater annual food consumption by brackish water eels. These results indicate that greater annual food consumption contributes to the greater growth rates of Japanese eels in brackish water habitats.

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Section: Introductionsupporting

confidence: 71%

Section: Introductionmentioning

confidence: 99%

Growth differences of Japanese eels Anguilla japonica between fresh and brackish water habitats in relation to annual food consumption in the Kojima Bay‐Asahi River system, Japan

Kaifu

Miller

Yada

et al. 2012

Ecology of Freshwater Fish

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“…Most glass eels enter fresh water, migrating to the upper limits of tidal flow which in the old, flat continents occupied by A. anguilla and A. rostrata represents exclusively fresh water but for A. japonica can be either fresh or brackish water as mountains and the ocean stand adjacent to one another (Kaifu et al, 2010). Once freshwater is detected, this can trigger a range of behaviours: individuals either continue up-river, return to brackish water, or adopt a nomadic life-history where they use a range of saline habitats (Daverat et al, 2006;Cairns et al, 2009).…”

Section: Importance Of Saline Water Populationsmentioning

confidence: 99%

Synergistic patterns of threat and the challenges facing global anguillid eel conservation

Jacoby

Casselman

Crook³

et al. 2015

Global Ecology and Conservation

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201

153

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h i g h l i g h t s • The first global review of anguillid population data and conservation status. • Eel population data currently fall short of required length and geographic range. • Multiple, synergistic, yet variable threats face eels across all life-history stages.• Key recommendations made for input into international eel conservation strategies. a b s t r a c tWith broad distributions, diadromous fishes can be exposed to multiple threats at different stages of development. For the primarily catadromous eels of the family Anguillidae, there is growing international concern for the population abundance and escapement trends of some of these species and yet incomplete knowledge of their remarkable life-histories hampers management and conservation. Anguillids experience a suite of pressures that include habitat loss/modification, migration barriers, pollution, parasitism, exploitation, and

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“…In addition, some eels change habitats during their growth phase (e.g. Tsukamoto et al 1998, Tsukamoto & Arai 2001, Jessop et al 2004, Daverat & Tomas 2006, Kaifu et al 2010, Yokouchi et al 2012. Studies on growth of anguillid eels showed that eels living in brackish habitats had a higher growth rate than eels living in freshwater habitats (e.g.…”

Section: Resale or Republication Not Permitted Without Written Consenmentioning

confidence: 99%

Modeling individual growth trajectories of the female European eel in relation to temperature and habitat-use history in the Gironde River, France

Yokouchi¹,

Daverat²

2013

Aquat. Biol.

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Although the average growth rate of European eel is known to be generally dependent on temperature and habitat at the population scale, large variation in growth among eels in a single river basin can also be widely observed. In this study, individual growth trajectories of female European eels in the Gironde River basin, France, were modeled with habitat-use histories and thermal variations in relation to regional climatic events such as the heat wave in 2003 observed in SW Europe. A mixed-effects model was used to take into account the repeated measures of individual growth of 173 female eels in 1993 to 2003, obtained from otolith structure and chemistry. Temperature effect was tested using a proxy of efficient temperature for growth between 2 thermal thresholds in a year. The models with thresholds for growth between 12 and 15°C (lower) and 18°C (higher) were selected considering Akaike's information criterion. Individual annual growth estimates were higher in the estuary habitat than in the river habitat. Estimated growth was higher when eels shifted habitats between freshwater and brackish water or seawater. The years 1999 and 2001 had, respectively, the lowest and highest temperature proxy value, showing that a longer growing season (moderate summer/warm winter) had a positive effect on growth. The 2003 heat wave had a negative effect on eel growth, reflected by the lower temperature proxy value. The same approach could be used in the future to estimate the effect of global climate change on the growth and distribution of eels at local and regional scales.KEY WORDS: Anguilla anguilla · Inter-annual temperature variation · Habitat-use history · Mixed-effects model Aquat Biol 19: 185-193, 2013 reproductive stage. The European eel forms a unique population from a genetic perspective (reviewed by Tesch 2003, Aoyama 2009, making the eel a model of choice to study the effects of environment on lifehistory traits. Thus, one can expect that eel growth traits respond to drivers such as temperature and habitat productivity, which can be partly determined by the passive transport of larvae from the spawning ground to the continental growth habitat. The growth phase of eels is very plastic, as eels may occupy many different environments along a large latitudinal gradient . Resale or republication not permitted without written consent of the publisherAnguillid eels have several habitat-use patterns as shown by otolith microchemistry. While some eels spend their whole growth phase in freshwater, others remain in brackish or seawater (Tsukamoto et al. 1998). In addition, some eels change habitats during their growth phase (e.g. Tsukamoto et al. 1998, Tsukamoto & Arai 2001, Jessop et al. 2004, Daverat & Tomas 2006, Kaifu et al. 2010, Yokouchi et al. 2012. Studies on growth of anguillid eels showed that eels living in brackish habitats had a higher growth rate than eels living in freshwater habitats (e.g. Helfman et al. 1987, Morrison & Secor 2003, Melia et al. 2006, Yokouchi et al. 2008). Models of eel growth...

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Dispersal of yellow phase Japanese eels Anguilla japonica after recruitment in the Kojima Bay-Asahi River system, Japan

Cited by 63 publications

References 38 publications

Growth differences of Japanese eels Anguilla japonica between fresh and brackish water habitats in relation to annual food consumption in the Kojima Bay‐Asahi River system, Japan

Growth differences of Japanese eels Anguilla japonica between fresh and brackish water habitats in relation to annual food consumption in the Kojima Bay‐Asahi River system, Japan

Synergistic patterns of threat and the challenges facing global anguillid eel conservation

Modeling individual growth trajectories of the female European eel in relation to temperature and habitat-use history in the Gironde River, France

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