Climate‐related changes in recruitment of the bivalve <i>Macoma balthica</i>

Philippart, C.J.M.; Aken, Hendrik M. van; Beukema, J.J.; Bos, O.G.; Cadée, Gerhard C.; Dekker, R.

doi:10.4319/lo.2003.48.6.2171

Cited by 237 publications

(212 citation statements)

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“…Environmental changes to be included in such studies are (1) eutrophication and de-eutrophication (as expressed in e.g. changing concentrations of chlorophyll a and particularly diatoms: Philippart et al 2007), (2) De-eutrophication as a cause of recently low bivalve stocks has been suggested by Brinkman & Smaal (2003) and Ens (2006), climate warming by Beukema (1992), Philippart et al (2003), Beukema & Dekker (2005), and Beukema et al (2009), and fishery disturbance by Piersma et al (2001), Van Gils et al (2006), Piersma (2007), and Kraan et al (2009).…”

Section: Discussionmentioning

confidence: 99%

Long-term variability in bivalve recruitment, mortality, and growth and their contribution to fluctuations in food stocks of shellfish-eating birds

Dekker¹,

Philippart²

2010

Mar. Ecol. Prog. Ser.

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Bivalve biomass in coastal marine areas tends to fluctuate heavily from year to year, but the relative impact of underlying processes (such as recruitment, mortality, and growth) on this variability is poorly known. The present study deals with 3 bivalve species that live on tidal flats and are readily exploitable as food for shellfish-eating birds, which have suffered in recent years from short food supply in the Wadden Sea. Long-term (~40 yr) monitoring of bivalve populations on tidal flats in the western Wadden Sea has revealed high year-to-year variability in numerical densities, whereas variability in growth rates and resulting mean individual weights-at-age was relatively low. High biomass values were found in particular when strong cohorts had arisen from successful recruitment in preceding years, whereas failing recruitment for some years in succession led to low biomass of bivalve stocks. Occasionally, temporarily enhanced mortality rates resulted in temporarily strongly reduced biomass values. Only in Macoma balthica were biomass values (at similar foregoing recruitment and mortality levels) lower in years with below-average individual weights than after years with above-average ones. In all 3 species, processes that govern numbers rather than individual weights were most decisive for biomass variability. Recruitment and mortality rates in only 3 species together explained a significant proportion of the variability of the total (multi-species) bird-accessible bivalve biomass. The low bird-food supply in recent years in the Wadden Sea appears to be due to a shift in the major structuring factors since the mid-1990s: as a consequence of the absence of cold winters in the area after 1997, annual recruitment in some major bivalve species has consistently failed and was not sufficiently compensated by better survival. A recent period of consistently enhanced mortality rates in M. balthica even aggravated the situation.

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Section: Discussionmentioning

confidence: 99%

Long-term variability in bivalve recruitment, mortality, and growth and their contribution to fluctuations in food stocks of shellfish-eating birds

Dekker¹,

Philippart²

2010

Mar. Ecol. Prog. Ser.

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“…Also, increased carbon dioxide may cause an acidification of the oceans, which may reduce the shell growth of bivalve molluscs (Gazeau et al 2010). And climate change can affect predator/prey relationships causing a mismatch between spawning, phytoplankton production and predator abundance and consequently high shellfish mortality (Philippart et al 2003). The net result of climate change is hard to predict.…”

Section: Management Of Environmental Resourcesmentioning

confidence: 99%

The feasibility of offshore aquaculture and its potential for multi-use in the North Sea

et al. 2016

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Following the Blue Growth ambition of the European Commission, the interest in the potential of offshore is growing. This paper aimed to contribute to the discussion on the feasibility of offshore aquaculture development and its potential for multi-use with other maritime activities. A review of national and international projects forms the basis of the paper, where the Dutch North Sea is used as a case-study area. Analysis of technical, economic and ecological boundaries indicated that the potential of fish culture is limited, that seaweed cultivation is likely to gain potential when challenges related to processing will be overcome and that mussel culture has the highest potential in the near future. The North Sea is an area where many stakeholders claim space, which might set boundaries to the number of sites available for mussel culture. Competing claims are a potential source of conflict but may also lead to mutual benefits when smart combinations are sought, e.g. with wind parks, fisheries and nature conservation; especially, the possibility of combining mussel culture in or around wind parks is worthwhile to be further explored. A spatial distribution model adapted for the Dutch North Sea conditions demonstrated that offshore mussel production in wind farms can be profitable. Yet, the commercial interest for offshore development of mussel culture is still limited. Actions required to stimulate further development of the offshore mussel industry are presented for the government, the private sector, research institutes and civil society organizations.

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“…Differential phenological shifts of prey and predator in response to temperature change might induce temporal mismatches in the occurrence (Fig. 18.3), leading to altered marine trophodynamics (Philippart et al 2003;Edwards and Richardson 2004;Durant et al 2005;Burthe et al 2012;Sommer et al 2012) and consequent declines in commercially important fish stocks such as cod (Beaugrand et al 2003). …”

Section: Species Interactions In Altered Temperature Regimesmentioning

confidence: 99%