An overview of salmon enhancement and the need to manage and monitor natural spawning in Hokkaido, Japan

Nagata, Mitsuhiro; Miyakoshi, Yasuyuki; Urabe, Hirokazu; Fujiwara, M.; Sasaki, Yoshitaka; Kasugai, Kiyoshi; Torao, Mitsuru; Ando, Daisei; Kaeriyama, Masahide

doi:10.1007/s10641-011-9882-3

Cited by 31 publications

(18 citation statements)

References 25 publications

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“…Evidence for reduced reproductive success or survival of hatchery fi sh has accumulated in salmonids such as Atlantic salmon (Milot et al 2013), steelhead trout (Araki et al 2007), and coho salmon (Thériault et al 2011;Zimmerman et al 2015), species that tend to be reared for lengthy periods before release, although evidence for chum salmon is lacking (Berejikian et al 2009). Therefore, we need to monitor and conserve regional wild chum salmon Nagata et al 2012) and to restrict egg transplantation between different genetic populations to avoid genetic disturbance and promote the sustainable use of chum salmon resources in Hokkaido.…”

Section: Discussionmentioning

confidence: 99%

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Adapting Hokkaido Hatchery Strategies to Regional Ocean Conditions Can Improve Chum Salmon Survival and Reduce Variability

Nagata¹,

Miyakoshi²,

Fujiwara³

et al. 2016

NPAFC Bull.

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Section: Discussionmentioning

confidence: 99%

“…1; Miyakoshi et al 2013). While the number of hatchery juvenile chum salmon released increased significantly in the 1970s, release numbers have been relatively stable in each region since the 1980s Nagata et al 2012). We examined return rates for the 25 brood years from 1983 to 2007.…”

Section: Salmon Datamentioning

confidence: 99%

Adapting Hokkaido Hatchery Strategies to Regional Ocean Conditions Can Improve Chum Salmon Survival and Reduce Variability

Nagata¹,

Miyakoshi²,

Fujiwara³

et al. 2016

NPAFC Bull.

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“…Attention has also been directed towards seed production (Fushimi 2001; Takeuchi 2001; Le Vay et al 2007), seed quality and behaviour (Tsukamoto et al 1999), broodstock management (Taniguchi 2003, 2004), and genetic effects on wild populations (Kitada et al 2009). Reviews on salmonids have covered large-scale hatchery releases, mainly focusing on chum salmon and pink salmon; however, their emphasis was mainly on ecology, with stocking effects not fully evaluated (e.g., Kaeriyama 1999; Morita et al 2006; Kaeriyama et al 2012; Nagata et al 2012; Miyakoshi et al 2013; Kitada 2014; Morita 2014). My previous systematic review provided a perspective on economic, ecological, and genetic effects of marine stock enhancement and sea ranching programmes worldwide, including salmon (Kitada 2018), but its focus was global.…”

Section: Introductionmentioning

confidence: 99%

Lessons from Japan marine stock enhancement and sea ranching programmes over 100 years

Kitada

2019

Preprint

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More than 26 billion juveniles of 180 marine species are released annually into the wild in over 20 countries, but the usefulness of this strategy remains unclear. Here, I analyse the effects of stocking by Japanese marine and salmon stock-enhancement programmes and evaluate their efficacy through a Bayesian meta-analysis of new and previously considered cases. The posterior mean recapture rate (± SD) was 8.3 ± 4.7%. Without considering personnel costs and negative impacts on wild populations, the mean economic efficiency was 2.8 ± 6.1, with many cases having values of 1 to 2. On the macro-scale, the proportion of released seeds to total catch was 76 ± 20% for Japanese scallop, 28 ± 10% for abalone, 20 ± 5% for swimming crab, 13 ± 5% for kuruma prawn, 11 ± 4% for Japanese flounder, and 7 ± 2% for red sea bream; according to these percentages, stocking effects were generally small, and population dynamics were unaffected by releases but dependent on the carrying capacity of the nursery habitat. All cases of Japanese releases, except for Japanese scallop, were probably economically unprofitable. Captive breeding reduces the fitness of hatchery fish in the wild. In addition, long-term releases replace wild genes and may cause fitness decline in the recipient population when the proportion of hatchery fish is very high. Short-term hatchery stocking can be useful, particularly for conservation purposes, but large-scale programmes may harm the sustainability of populations. Nursery habitat recovery and fishing pressure reduction often outperform hatcheries in the long run.

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“…In Hokkaido, there are well-developed hatchery programs for three native Oncorhynchus species (O. keta, O. masou, and Oncorhynchus gorbuscha), designed to increase the fishery harvest. In particular, chum salmon, which is the most stocked fish in the North Pacific Rim, is stocked into rivers in all parts of Hokkaido (Morita et al 2006;Ruggerone et al 2010;Nagata et al 2012;Miyakoshi et al 2013). Stocked chum salmon fry migrate toward the sea primarily at night, and like the wild fish, they actively forage during the daytime (Hasegawa and Takahashi 2013).…”

Section: Introductionmentioning

confidence: 99%

Effects of hatchery chum salmon fry on density-dependent intra- and interspecific competition between wild chum and masu salmon fry

HasegawaKoh

Morita

OhkumaKazumasa

et al. 2014

Can. J. Fish. Aquat. Sci.

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Stocking with hatchery fish is the principal method for harvest augmentation and, recently, restoring endangered populations. However, there is increasing concern about the negative effects of competition between hatchery and wild fish. In this study, enclosure experiments were conducted to evaluate the effects of hatchery chum salmon fry (Oncorhynchus keta) on wild masu (Oncorhynchus masou) and chum salmon fry through density-dependent competition. For masu and chum salmon, densitydependent performance (foraging rate and growth) varied depending on the presence or absence of competitor species. The negative effects on the foraging rate (evaluated by stomach content mass) and growth of wild masu salmon caused by wild conspecifics were greater than those exerted by wild and hatchery chum salmon. Wild chum salmon decreased foraging rate with increasing density of conspecifics and masu salmon and also in the presence of hatchery chum salmon. Although we could not evaluate growth under interspecific competition, wild chum salmon show body mass loss in the presence of hatchery chum salmon. These results suggest that the effects of stocking with hatchery chum salmon vary depending on the interacting species.Résumé : L'empoissonnement avec des poissons d'élevage est la principale méthode d'augmentation des récoltes et, récem-ment, de rétablissement de populations en péril. Les effets négatifs de la concurrence entre poissons d'élevage et poissons sauvages suscitent cependant des inquiétudes croissantes. Dans cette étude, des expériences en enclos ont été menées afin d'évaluer les effets causés par la concurrence dépendant de la densité d'alevins d'élevage de saumon kéta (Oncorhynchus keta) sur des alevins sauvages de saumons masou (Oncorhynchus masou) et kéta. Pour les saumons masou et kéta, la performance dépendant de la densité (taux d'alimentation et croissance) variait selon la présence ou non d'espèces concurrentes. Les effets négatifs sur le taux d'alimentation (évalué à la lumière de la masse du contenu stomacal) et sur la croissance des saumons masou sauvages causés par des conspécifiques sauvages étaient plus grands que ceux causés par des saumons kéta sauvages ou d'élevage. Le taux d'alimentation des saumons kéta sauvages diminuait à mesure qu'augmentait la densité de conspécifiques et de saumons masou, et aussi en présence de saumons kéta d'élevage. Bien que nous n'ayons pas pu évaluer la croissance en situation de concurrence interspécifique, les saumons kéta sauvages présentent une diminution de leur masse corporelle en présence de saumons kéta d'élevage. Ces résultats laissent croire que les effets de l'empoissonnement de saumons kéta d'élevage varient selon les espèces en présence. [Traduit par la Rédaction]

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An overview of salmon enhancement and the need to manage and monitor natural spawning in Hokkaido, Japan

Cited by 31 publications

References 25 publications

Adapting Hokkaido Hatchery Strategies to Regional Ocean Conditions Can Improve Chum Salmon Survival and Reduce Variability

Adapting Hokkaido Hatchery Strategies to Regional Ocean Conditions Can Improve Chum Salmon Survival and Reduce Variability

Lessons from Japan marine stock enhancement and sea ranching programmes over 100 years

Effects of hatchery chum salmon fry on density-dependent intra- and interspecific competition between wild chum and masu salmon fry

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