Coral list: Ferrario, F., Beck, M.W., Storlazzi, C.D., Micheli, F., Shepard, C.C., and Airoldi, L., 2014. ”The effectiveness of coral reefs for coastal hazard risk reduction and adaptation.” *Nature Communications*, 5:3794, DOI: 10.1038/ncomms4794.

We are happy to announce the publication of a paper relevant to Coral_List
readers in *Nature Communications* this week by a coalition of ecologists,
geographers, and oceanographers from academia, government, and an
international conservation organization. This research demonstrates how
maintaining or restoring coral reefs ecosystems can not only reduce coastal
hazards, but how such efforts are more cost-effective than hard
anthropogenic engineering structures. This research links coastal hazards
and ecosystem health while providing insight into the cost-benefit analyses
that often drive many management decisions.

Title:
The effectiveness of coral reefs for coastal hazard risk reduction and
adaptation

Abstract:
The world’s coastal zones are experiencing rapid development and an
increase in storms and flooding. These hazards put coastal communities at
heightened risk, which may increase with habitat loss. Here we analyse
globally the role and cost effectiveness of coral reefs in risk reduction.
Meta-analyses reveal that coral reefs provide substantial protection
against natural hazards by reducing wave energy by an average of 97%. Reef
crests alone dissipate most of this energy (86%). There are 100 million or
more people who may receive risk reduction benefits from reefs or bear
hazard mitigation and adaptation costs if reefs are degraded. We show that
coral reefs can provide comparable wave attenuation benefits to artificial
defenses such as breakwaters, and reef defences can be enhanced cost
effectively. Reefs face growing threats yet there is opportunity to guide
adaptation and hazard mitigation investments towards reef restoration to
strengthen this first line of coastal defense.

The article should soon be available online for free via OpenAcess at:

*http://www.nature.com/ncomms/2014/140513/ncomms4794/full/ncomms4794.htm
*

Until then, please feel free to contact Mike Beck (mbeck@tnc.org) if you
would like a copy of the article.

Have a wonderful weekend!

Curt

——————————————————–
Curt Storlazzi, Ph.D.
U.S. Geological Survey
Pacific Coastal and Marine Science Center
400 Natural Bridges Drive
Santa Cruz, CA 95060
(831) 460-7521 phone
(831) 427-4748 fax

Staff web page:
*http://walrus.wr.usgs.gov/staff/cstorlazzi/
*
_______________________________________________
Coral-List mailing list
Coral-List@coral.aoml.noaa.gov
http://coral.aoml.noaa.gov/mailman/listinfo/coral-list

Coral-list: Blanchon P, Granados-Corea M, Abbey E, Braga JC, Braithwaite C, Kennedy DM, Spencer T, Webster JM, Woodroffe CD. (2014) Postglacial Fringing-Reef to Barrier-Reef conversion on Tahiti links Darwin’s reef types. Scientific Reports 4: 4997.

We are pleased to announce the following open-access publication:

Abstract: In 1842 Charles Darwin claimed that vertical growth on a
subsiding foundation caused fringing reefs to transform into barrier reefs
then atolls. Yet historically no transition between reef types has been
discovered and they are widely considered to develop independently from
antecedent foundations during glacio-eustatic sea-level rise. Here we
reconstruct reef development from cores recovered by IODP Expedition 310 to
Tahiti, and show that a fringing reef retreated upslope during postglacial
sea-level rise and transformed into a barrier reef when it encountered a
Pleistocene reef-flat platform. The reef became stranded on the platform
edge, creating a lagoon that isolated it from coastal sediment and
facilitated a switch to a faster-growing coral assemblage dominated by
acroporids. The switch increased the reef’s accretion rate, allowing it to
keep pace with rising sea level, and transform into a barrier reef. This
retreat mechanism not only links Darwin’s reef types, but explains the
re-occupation of reefs during Pleistocene glacio-eustacy.

We welcome any questions or feedback (blanchons at gmail.com)

You can view and download the paper at:

http://www.nature.com/srep/2014/140516/srep04997/full/srep04997.html

Or:

unam.academia.edu/PaulBlanchon (includes Supp. Info. in pdf file)

Saludos,
Paul.

Paul Blanchon
Marine Geoscience Lab., Reef Systems Unit,
Institute of Marine Sciences & Limnology
National Autonomous University of Mexico (UNAM)
Tel: +52 (998) 87-10009 Ext 166
Email: blanchons@gmail.com
Web: unam.academia.edu/PaulBlanchon
& www.icmyl.unam.mx/arrecifes/-blanchon.html
_______________________________________________
Coral-List mailing list
Coral-List@coral.aoml.noaa.gov
http://coral.aoml.noaa.gov/mailman/listinfo/coral-list

USGS: Coral Reefs are Critical for Risk Reduction & Adaptation

Coral Reefs are Critical for Risk Reduction & Adaptation
usgs logo
Coral Reefs are Critical for Risk Reduction & Adaptation
Posted: 13 May 2014 09:00 AM PDT

Summary: ARLINGTON, Va – Stronger storms, rising seas, and flooding are placing hundreds of millions people at risk around the world, and big part of the solution to decrease those risks is just off shore. A new study finds that coral reefs reduce the wave energy that would otherwise impact coastlines by 97 percent.

New study shows that coral reefs provide risk reduction benefits to hundreds of millions of coastal inhabitants around the world

Contact Information: Sandra L. Rodriguez TNC
Leslie Gordon, USGS Phone: 650-329-4006

ARLINGTON, Va – Stronger storms, rising seas, and flooding are placing hundreds of millions people at risk around the world, and big part of the solution to decrease those risks is just off shore. A new study finds that coral reefs reduce the wave energy that would otherwise impact coastlines by 97 percent.

“Coral reefs serve as an effective first line of defense to incoming waves, storms and rising seas,” said Dr. Michael Beck, lead marine scientist of The Nature Conservancy and a co-author of the study, “200 million people across more than 80 nations are at risk if coral reefs are not protected and restored.”

Published today in the journal “Nature Communications,” this study by an international team of researchers from the University of Bologna, The Nature Conservancy, U. S. Geological Survey, Stanford University and University of California – Santa Cruz, provides the first global synthesis of the contributions of coral reefs to risk reduction and adaptation across the Atlantic, Pacific, and Indian Oceans.

“This study illustrates that the restoration and conservation of coral reefs is an important and cost effective solution to reduce risks from coastal hazards and climate change,” said Dr. Filippo Ferrario, lead author from the University of Bologna.
Key results from the study:

– Coral reefs provide substantial protection against natural hazards by reducing wave energy by an average of 97 percent (studies across all tropical oceans).
– The reef crest, or shallowest part of the reef where the waves break first, dissipates 86 percent of wave energy on its own.
– The median cost for building artificial breakwaters is USD $19,791 per meter, compared to $1,290 per meter for coral reef restoration projects.

“Coral reefs are wonderful natural features that, when healthy, can provide comparable wave reduction benefits to many artificial coastal defenses and adapt to sea-level rise” said Dr. Curt Storlazzi a co-author from USGS. “This research shows that coral reef restoration can be a cost-effective way to decrease the hazards coastal communities face due to the combination of storms and sea-level rise.”

“While there are many concerns about the future of corals reefs in the face of climate change,” Dr. Fiorenza Micheli of Stanford University said, “there are still many reasons for optimism about the future of coral reefs particularly if we manage other local stressors such as pollution and development.”

The study found that there are 197 million people worldwide who can receive risk reduction benefits from coral reefs alone or may have to bear higher costs of disasters if the reefs are degraded. These are people in villages, towns, and cities who live in low, risk prone coastal areas (below 10m elevation) and within 50 km of coral reefs.

Conservation efforts are most often directed to more remote reefs, however the study suggests there should also be a focus on reefs closer to the people who will directly benefit from reef restoration and management. In terms of number of people who receive risk reduction benefits from coral reefs, the top 15 countries include:

1. Indonesia, 41 million
2. India, 36 million
3. Philippines, 23 million
4. China, 16 million
5. Vietnam, 9 million
6. Brazil, 8 million
7. United States, 7 million
8. Malaysia, 5 million 9. Sri Lanka, 4 million
10. Taiwan, 3 million
11. Singapore, 3 million
12. Cuba, 3 million
13. Hong Kong, 2 million
14. Tanzania, 2 million
15. Saudi Arabia, 2 million

Additionally, major investments are being made in artificial defense structures such as seawalls for coastal hazard mitigation and climate adaptation. The study shows that the restoration of coral reefs for coastal defense may be as low as 1/10 the cost of building artificial breakwaters. Reef defenses can be enhanced in a cost-effective manner through restoration, a key factor in protecting small island nations and regions with limited fiscal resources.

Drs. Beck and Micheli were supported in this work by Pew Fellows Program in Marine Conservation, an effort that has awarded 135 fellowships to individuals from 31 countries for projects to address conservation challenges facing our oceans.

The Pew Fellows Program in Marine Conservation awards recipients US $150,000 for a three-year project to address conservation challenges facing our oceans. The program has awarded 135 fellowships to individuals from 31 countries. The program is managed by The Pew Charitable Trusts in Washington, D.C. www.PewMarineFellows.org

CARMABI releases Coral Spawning Predictions for 2014

Based on last year’s surveys a prediction is now available of expected times and dates that some of the more abundant Caribbean coral species will release the next generation of corals during the annual coral spawning. The dates are only applicable to the Southern Caribbean. Be aware that the coral spawning is becoming more difficult to predict each year and that this schedule of estimated spawning times provides no guarantees. To see the 2014-spawning prediction for the Southern Caribbean,

Go to:
www.researchstationcarmabi.org/news/latest-news/118-coral-spawning-predictions-for-2014″ title=”Coral spawning predictions 2014″

Special thanks to Coral-list

International Society for Reef Studies publishes “Reef Encounter” again

REEF-ENCOUNTER-29-1-Feb2014

Special thanks to NOAA Coral-list:

Dear Coral Listers,

Regarding REEF ENCOUNTER, may I take the opportunity to advise those of you who are not yet members of ISRS (International Society for Reef Studies) that the Society’s Council has now agreed to make the re-launched electronic version of the society’s news journal REEF ENCOUNTER available, with a slight delay, to non-members.

As a result a pdf file of the latest edition (Volume 29 No. 1 published in March) can now be downloaded from the society’s membership server free of charge by entering / clicking on the following web address:

http://www.sgmeet.com/isrs/membership/files/REEF-ENCOUNTER-29-1-Feb2014.pdf

This edition contains an interesting variety of news, general articles, opinion pieces, scientific letters and reviews.
Notes for potential contributors are included on the back pages.

Free on-line access to the society’s academic journal CORAL REEFS remains however available only to members.