Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-26T01:14:53.063Z Has data issue: false hasContentIssue false

Editorial

Published online by Cambridge University Press:  17 July 2014

Rights & Permissions [Opens in a new window]

Abstract

Type
Editorial
Copyright
Copyright © Marine Biological Association of the United Kingdom 2014 

Climate change, ocean acidification, invasive species, toxic algal blooms, pathogenic microbes and other coastal contaminants have been the subject of media interest for some years now and reflect a resurgence of public interest in our coasts, seas and oceans.

The JMBA has published several special issues that have focused on this topical research. In 2005 we published major reviews that covered climate change and its impact on organism distribution, behaviour and physiology (JMBA 2005, 85, JMBA 2010, 90, 1153).

The marine organisms highlighted ranged from gelatinous plankton to marine mammals (JMBA 2009, 89) and have covered other related issues, including invasive species (Crocetta, Reference Crocetta2012; Pancucci-Papadopoulou et al., Reference Pancucci-Papadopoulou, Raitsos and Corsini-Foka2012), physiology and adaptive variation in environmental gradients (Crabbe, Reference Crabbe2012; Fuentes et al., Reference Fuentes, Escribano and Cuevas2012; Moreno et al., Reference Moreno, Pierce, Azevedo, Pereira and Santos2012; Oliveira et al., Reference Oliveira, de Fraga and Majluf2012; Pereira & D'Incao, Reference Pereira and D'Incao2012) global sea and ocean temperature oscillations (Garcia-Soto & Pingree, Reference Garcia-Soto and Pingree2012; Henderson et al., Reference Henderson, Plenty, Newton and Bird2012; Reid & Beaugrand, Reference Reid and Beaugrand2012; van den Brink et al., Reference van den Brink, Godschalk, Smaal, Lindeboom and McLay2013) and flooding (Conde et al., Reference Conde, Calvário, Sprung, Novais and Domínguez2013). Most of these topics are in ‘traditional’ areas of our interest. However, there is a necessity to be more proactive and expand our readership and remit to ensure we cover as many relevant aspects of emerging areas of interest in the marine environment as possible, whilst remaining in touch with the needs of society.

We are conscious that in order to address these issues that are so vital to the sustainability of our environment and the well-being of the world's population, we need to expand our editorial board to include some of the leading figures in this field.

A key feature of this is an interdisciplinary approach. Not only do we need the fundamental sciences of biology, chemistry, physics, ecology and systematics, but also the social sciences. Moreover, we are all aware of the demands from grant-awarding agencies that we should provide evidence of the societal relevance of what we do. In most instances this refers to socio-economic matters including, for example, ‘blue-flag’ beaches, cleaner coasts and sustainable food and fisheries. However, until now, somewhat overlooked are the human well-being aspects of our coasts. Since the 18th Century and even before, ‘taking the waters’ either as medicine or immersion was promoted as being beneficial to health (Granville & Martin, Reference Granville and Martin1971; Hembry, Reference Hembry1997).

We are now seeing the emergence of terms such as ‘Green Gym’ and ‘Blue Gym’, coined to describe the sometimes-indefinable benefits to be obtained from experiencing proximity to marine environments. Indeed, special centres that deal with such issues are being established—for example, ‘The European Centre for Environment and Human Health’ that is part of the University of Exeter and Peninsula Medical Schools (http://ecehh.wireworksdigital.co.uk/). A recent publication from this group (Wheeler et al., Reference Wheeler, White, Fleming, Taylor, Harvey, Depledge, Bowen, Depledge, Carlarne and Fleming2014) showed that there is a clear increase in ‘self-reported’ good health with increasing proximity to the coast, with the quite simple take-home message that better access to a high quality environment is often as important as other better known factors in determining health outcomes.

A key caveat here is that this benefit seems to be especially pronounced in more deprived populations. The relationship between human health/well-being, the coasts and climate change is multi-faceted, particularly in the less-developed areas of the globe, where impacts on fisheries, socio-economic status, food and nutritional security are particularly acute.

While ‘marine scientists’ in their widest sense now embrace environmental microbiology and toxicology, including the study of human pathogenic contaminants in the marine environment, the discipline remains fragmented. A key enabling action needed to overcome this fragmentation is to expose marine scientists to the extensive literature surrounding ‘health promotion’ and other cognate areas of public health. There is a substantial body of knowledge that seeks to address the crucial impact that environment and behaviour have on human health and well-being.

It is now some time since the WHO proposed that one of the key principles of health promotion action was to create supportive environments, recognizing that ‘the inextricable link between people and their environment constitutes the basis for a socio-ecological approach to health’ (Ottawa Charter for Health Promotion, WHO, 1986). Health is determined by the interaction of many factors, referred to as ‘layers of influence’ (Dahlgren & Whitehead, Reference Dahlgren and Whitehead1991). Increasingly health outcomes can be directly linked to environment, be that physical, social, working, living or leisure; those ‘places’ where everyday lives are enacted and which ultimately impact life chances. Place and space have become central considerations in health promotion—terms which refer to far more than geographical location; rather the spatial context in which lives are lived. Included here is the way in which human experience interacts with the natural environment and how environmental or structural factors determine human behaviour.

The recent FPHFootnote 1 report (‘The Great Outdoors; How our Natural Health Service uses Green Space to improve wellbeing’) emphasized how ‘access to nature can significantly contribute to our mental capital and well-being’ and cites evidence demonstrating how green (and ‘blue’) space is an important beneficial factor in tackling health and social problems—obesity, mental ill health, anti-social behaviours, health inequality. The subsequent development of ‘Green Gyms’ further encourages people to connect and actively engage with their surrounding natural environment. Here then we can see how the ‘Blue Gym’ (noted above) has become a natural extension of the ‘Green Gym’. As any scientific concept develops it is important that there is a vehicle for the publication of research and learned articles that underpin and engage with its community, particularly in a new and emerging cross-disciplinary field. JMBA therefore hopes to provide a platform for scholarly articles that address the ancient and complex interactions between man and the sea.

Footnotes

1 http://www.fph.org.uk/uploads/r_great_outdoors.pdf. Faculty of Public Health, 4 St Andrews Place, London NW1 4LB, UK.

References

REFERENCES

van den Brink, A., Godschalk, M., Smaal, A., Lindeboom, H. and McLay, C. (2013) Some like it hot: the effect of temperature on brood development in the invasive crab Hemigrapsus takanoi (Decapoda: Brachyura: Varunidae). Journal of the Marine Biological Association of the United Kingdom 93, 189196.CrossRefGoogle Scholar
Conde, A., Calvário, J., Sprung, M., Novais, J.M. and Domínguez, J. (2013) Converse effect of flooding on intertidal macrobenthic assemblages in the Guadiana estuary. Journal of the Marine Biological Association of the United Kingdom 93, 14311440.Google Scholar
Crabbe, M.J.C. (2012) Environmental effects on coral growth and recruitment in the Caribbean. Journal of the Marine Biological Association of the United Kingdom 92, 747752.Google Scholar
Crocetta, F. (2012) Marine alien Mollusca in Italy: a critical review and state of the knowledge. Journal of the Marine Biological Association of the United Kingdom 92, 13571365.Google Scholar
Dahlgren, G. and Whitehead, M. (1991) Policies and strategies to promote social equity in health. Stockholm (Mimeo): Institute for Future Studies.Google Scholar
Fuentes, M., Escribano, R. and Cuevas, L.A. (2012) Bacterial response to a weak 2006 El Niño condition in an upwelling area of the Humboldt Current system. Journal of the Marine Biological Association of the United Kingdom 92, 112.Google Scholar
Garcia-Soto, C. and Pingree, R.D. (2012) Atlantic Multidecadal Oscillation (AMO) and sea surface temperature in the Bay of Biscay and adjacent regions. Journal of the Marine Biological Association of the United Kingdom 92, 213234.Google Scholar
Granville, A.B. and Martin, G. (1971) Spas of England and principal sea-bathing places: Volume. 2. The Midlands and South. Somerset: Adams and Dart, 648 pp.Google Scholar
Hembry, P.M. (1997) The English Spa, 1560–1815: a social history. Madison, NJ: Fairleigh Dickinson University Press, 292 pp.Google Scholar
Henderson, P.A., Plenty, S.J., Newton, L.C. and Bird, D.J. (2012) Evidence for a population collapse of European eel (Anguilla anguilla) in the Bristol Channel. Journal of the Marine Biological Association of the United Kingdom 92, 843851.Google Scholar
Moreno, A., Pierce, G.J., Azevedo, M., Pereira, J. and Santos, A.M.P. (2012) The effect of temperature on growth of early life stages of the common squid Loligo vulgaris. Journal of the Marine Biological Association of the United Kingdom 92, 16191628.Google Scholar
Oliveira, L.R., de Fraga, L.D. and Majluf, P. (2012) Effective population size for the South American sea lions along the Peruvian coast: the survivors of the strongest El Niño event in history. Journal of the Marine Biological Association of the United Kingdom 92, 18351841.Google Scholar
Pancucci-Papadopoulou, M.A., Raitsos, D.E. and Corsini-Foka, M. (2012) Biological invasions and climatic warming: implications for south-eastern Aegean ecosystem functioning. Journal of the Marine Biological Association of the United Kingdom 92, 777789.Google Scholar
Pereira, N. and D'Incao, F. (2012) Relationship between rainfall, pink shrimp harvest (Farfantepenaeus paulensis) and adult stock, associated with El Niño and La Niña phenomena in Patos Lagoon, southern Brazil. Journal of the Marine Biological Association of the United Kingdom 92, 14511456.Google Scholar
Reid, P.C. and Beaugrand, G. (2012) Global synchrony of an accelerating rise in sea surface temperature. Journal of the Marine Biological Association of the United Kingdom 92, 14351450.Google Scholar
Wheeler, B., White, M.P., Fleming, I.E., Taylor, T., Harvey, A. and Depledge, M.H. (2014) Influences of the oceans on human health and well-being. In Bowen, R.E., Depledge, M.H., Carlarne, C.P. and Fleming, L.E. (eds) Oceans and human health: implications for society and well-being. Chichester: John Wiley and Sons, pp. 422.Google Scholar
WHO (1986) Ottawa Charter for Health Promotion. Health Promotion International 1, 405. doi:10.1093/heapro/1.4.405-a.Google Scholar