[] TL: INTERNATIONAL OCEANS NEWSLETTER (Oct 93)
SO: Kieran Mulvaney, Greenpeace International (GP)
DT: October 26, 1993
Keywords: environment oceans fisheries greenpeace gp ocean
dumping algae coral marine mammals /

PILOT ISSUE   VOLUME NO. 1   OCTOBER 1993
Around the world, increasing numbers of organisations and
individuals are concerned about the health of the marine
ecosystem, and involved in its conservation. The International
Oceans Newsletter is intended to serve those organisations and
individuals, and address the threats facing marine ecosystems and
the issues associated with them. 

Features in the Newsletter will cover the scientific, social,
political and environmental aspects of marine ecosystems issues.
They will adddress the significance of the many components of
global change in the oceans, and the necessity of adopting
precautionary approaches in our co-existence with the marine
environment. They will provide up-to-date information on upcoming
symposia and key scientific research.

The Newsletter is also intended as a forum for all NGOs, coastal
groups, fisheries collectives and others concerned with the
coastal and marine environment. All are encouraged to read,
distribute, criticise and contribute. We want to hear from you:
your news, views, articles and letters. Articles and letters
published in the ION will be read widely: as well as being
distributed in the printed form throughout the world, the
Newsletter will also be posted on a number of electronic mail
systems, with a potential global audience of around twenty
million.

Please send any comments, contributions or suggestions to the
address below. We look forward to hearing from you.
Kieran Mulvaney,
Editor

International Oceans Newsletter
Greenpeace International
keizersgracht 176
1016 DW Amsterdam
The Netherlands
Tel: +31 (0)20 523 6555
Fax: +31 (0)20 523 6500

CHANGE IN THE WORLD'S OCEANS?

Bruce McKay 

An explosion in numbers of crown-of-thorns starfish is decimating
sections of Australia's Great Barrier Reef. The mysterious and
fatal "withering syndrome" of black abalone continues in southern
California.  A "wasting disease" is striking eelgrass along 
northeastern U.S. coastlines.

Are these natural cyclical occurences or symptoms of regional
human-induced disturbances?  How does one explain the epidemic of
the cancer-like fibropapilloma disease, a disease virtually
unheard of ten years ago, in green turtle populations in Florida
and Hawaii? What is the reason for the virtual disappearance of
black sea urchin throughout much of the Caribbean? Can we expect
an increase in toxic algae events of the sort that killed 14
endangered humpback whales along the U.S. mid-eastern shore 
during late 1987/early 1988 or some 37 endangered manatee in
Florida waters during 1982?  

Are the increases in 'ulcerative  syndromes' in coastal finfish
in SE Asia, the U.S. and Europe  just an artifact of increased
surveillance or an ominous sign of  extensive coastal
degredation?  To what extent is commercial fishing responsible
for the massive declines in populations of  Steller sea lions,
harbour seals and fur seals in Alaskan waters?  These are just
some of the questions with which marine scientists are faced as
both the popular press and the scientific literature continue to
be replete with reports of anomalous events and descriptions of
significant change occuring in marine
environments.  
 
One of the most striking phenomena has been what  appears to be a
remarkable increase in the frequency and geographic extent of
toxic phytoplankton blooms or 'red tides'. Indeed, human health
concerns and the enormity of the ecological and economical
impacts of blooms is the drawing card for some 350 scientists to
the upcoming VIth International Conference on Toxic Marine
Phytoplankton (see Listings on page 7 for details). Only a couple
of years ago, such an event years ago would have drawn but a few
dozen participants.  

Although planktonic blooms are a natural component of aquatic
environments, many individual phytoplankton species are
stimulated by nutrient loadings. The over-enrichment or
eutrophication of coastal waters by agricultural fertilizer run-
off, human and farm animal waste, or by the nitrogenous element
of 'acid' rain are likely important components in at least some 
bloom occurences.  The alteration of food web dynamics by
chemical contaminants and over-fishing may also be a factor. The
transfer of aquaculture products (eg. contaminated bivalves) or 
ballast water discharge adequately explains the surprise
appearance of species in regions where they were historically
absent.   

The accidental, and at times purposeful, introduction of 'alien' 
species into marine environments has, in this regard, become a 
global issue. Besides eroding the biogeographical distinctness 
of coastal environments, introduced species can cause
considerable ecological damage.  For example, Caulerpa taxifolia,
one of at least nine of the seaweed species introduced to the 
Mediterranean, is gradually replacing ecologically important
Posidonia oceanica seagrass beds, which are already declining
under pressure from pollution and land reclamation in the region. 
Surprisingly, the species can grow much larger and produce more 
toxin in the Mediterranean than it ever could in its  native
tropical environments. This has led to suggestions that it may be
evolving new genotypic traits helping it to outcompete existing
species.  

But whether it be C. taxifolia flourishing in the Mediterranean,
or the European shore crab scuttling along the South African
coast, or the Asian clam that now makes up most of the living
biomass in San Francisco Bay this much is known: nearshore
environments around the world are being irrevocably  altered by a
virtual onslaught of alien invaders. 

Changes in coastal environments are occuring, of course, in 
numerous other ways; this is largely a result of the fact that 
over half of the world's population lives along the coastal zone. 
Highly productive wetlands such as seagrass beds, saltwater 
marshes, coral reefs and mangrove forests are under tremendous 
assault.  For example, over half -- and perhaps as much as
seventy per cent --  of mangrove forests in Southeast Asia, South
Asia and the Caribbean have been destroyed over the last 40
years. Changes in  these ecosystems are now so extensive that the
regeneration of mangroves into former habitats is unlikely. 
Bereft of this natural physical barrier, those coastal
environments will be particularly vulnerable to sea level rise
and extreme storm events as predicted by some climate change
scenarios.  

Increasingly, many coral reef systems are falling victim to reef
fisheries, eutrophication, and sedimentation. Some estimates have
suggested that up to eighty per cent of coral reefs in SE Asia
have been severely degraded as a result of human activity. In
addition, an unprecedented series  of coral 'bleaching' events  
(ie. in which there is a dissociation  of the symbiotic
relationship between the color-providing algae or zooxanthellae
and the host coral) have struck in a variety of regions during
the last 15 years.  Bleached coral, though not dead, appear to be
more vulnerable to other stresses which, in turn, can lead to
reduced growth and mortality. The wide geographic range of coral
bleaching complexes and their known  dependence on a narrow
temperature regime has resulted in speculation that this may be
one early sign of increased climatic warming.  

Some startling events in populations of higher level predators 
have also been occuring. Over the last six years there have been 
four major die-off events involving marine mammals.  During
1987/88 over half of the inshore population of U.S. east coast 
bottlenose dolphin succumbed, ultimately, to massive bacterial 
infections. Shortly after, in 1988, approximately 18,000 harbour 
seals died in northern European waters as a result of infection 
by a distemper-like virus.  

During 1990 and 1991,  another distemper-like virus raced through
striped dolphin populations in the Mediterranean; thousands of
animals were estimated to have died.  And, during the first four
months of 1990, 270 bottlenose dolphins washed ashore along the
U.S. side of the Gulf of Mexico.  In all cases high levels of
persistent  and highly toxic organochlorine chemicals were found
in the affected populations, leading to much speculation that
contaminants may have played an important role in the events.    
There are numerous other human-related impacts than those
mentioned above that are currently resulting, or will result in
the future, in extensive alterations and stress to marine
environments.  

These include climate change, increased UV radiation, the damming
of rivers for irrigation and energy purposes, overfishing and
other harmful fisheries practices, sea surface microlayer
contamination by a wide variety of contaminants, and the myriad
development and maintenance projects along coastlines worldwide.  

In many cases, the ecological significance of these and other
events, changes, and conditions currently defy understanding.  
Perhaps, they may simply portend the continued alteration and re-
organisation of coastal and oceanic environments, much of it at 
the hand of humankind.  After all, the regenerative and
adaptability potential of many environments is enormous.  But at 
its worst, we may be witnessing the unravelling of delicate
trophic balances and pathways, and of ecosystemic regulatory
controls, with a syndrome of structural effects to be felt over 
larger and larger regions.