A Better Understanding of Coral Reef Ecosystems

Pelagic predators such as these barracuda, Sphyraena qenie, are part of the coral reef ecosystem in the U.S. Line Islands (NOAA Photo by Kevin Lino).
A team of scientists have embarked from Hawai'i on a three-month survey of coral reef ecosystems at Johnston Atoll, the U.S. Phoenix Islands, the islands of American Samoa, and the U.S. Line Islands in the tropical Pacific Ocean. The overarching objective is to better understand the coral reef ecosystems of these areas, many of which are seldom explored. The research expedition is part of a regular monitoring program, conducted by the Coral Reef Ecosystem Division (CRED), headquartered in Honolulu, Hawai'i. The expedition is supported by NOAA's Coral Reef Conservation Program and involves extensive cooperation among NOAA scientists and research partners, including the University of Hawaii Joint Institute for Marine and Atmospheric Research (JIMAR), the U.S. Fish and Wildlife Service, San Diego State University, and the Papahānaumaokuākea Marine National Monument.

The research expedition will be carried out from February 27 to May 24, 2012 aboard the NOAA ship Hi'ialakai. Under the leadership of Chief Scientists Dr. Jill Zamzow, Dr. Bernardo Vargas-Angél, and Jamison Gove, a diverse team of researchers will be conducting multidisciplinary coral reef ecosystem surveys, assessing the status of fishes, corals, algae, marine invertebrates, and the oceanographic conditions in which these organisms exist. The scientific data collected during the three-month research expedition will enable informed and effective implementation of ecosystem-based management and conservation strategies for coral reef ecosystems, helping to ensure their protection for generations to come.

Sunday, May 8, 2011

Creature Feature: Juvenile Graeffe's Sea Cucumber

by Dave Burdick

The remarkable little critter pictured below is not what it appears to be…indeed, it “hopes” that potential predators are tricked into thinking it’s actually another creature they wouldn’t want to eat.  What Government of Guam Biologist, Dave Burdick, is holding in the palm of his hand is a juvenile Graeffe’s sea cucumber, Pearsonothuria graeffei.  This individual was found at a Rapid Ecological Assessment site off the coast of Rota, but this species is found throughout the Marianas, and is relatively common across much of the Indo-Pacific.  Juveniles such as this one are rarely seen, but adults are occasionally encountered on reefs across its range. 

A juvenile Graeffe's sea cucumber, Pearsonothuria graeffei, found at a Rapid Ecological Assessment (REA) site off the coast of Rota. Photo by Dave Burdick.
As with most other sea cucumbers, known as balate in Chamorro, this elongated echinoderm uses tube feet to slowly move across the reef in search of food (mostly decaying organic matter), which it picks up using an array of oral tentacles rimming its mouth.  This colorful youngster appears strikingly different from adults of this species – the yellow-spotted, black and white juveniles eventually trade their bright coloration for a more muted, brown and cream-mottled look (see photo below).  
An adult Graeffe's sea cucumber, with its less conspicuous coloration, crawling across a reef on Guam. Photo by Dave Burdick www.guamreeflife.com.
But why would a young sea creature be more colorful than the larger, less vulnerable adults?  Wouldn’t this attract attention to would-be predators?  The strategy employed by this sea cucumber is known as Batesian mimicry, a defense against predators that involves a harmless species mimicking a toxic species that is brightly colored to denote the foul-tasting, or potentially deadly chemical compounds it possesses.  In this case, the juvenile Graeffe’s sea cucumber is likely mimicking the toxic sea slug, Phyllida varicosa (see photo below).


A sea slug, Phyllidia varicosa, in the Batangas, The Philippines. This noxious nudibranch is presumed to be the species that juvenile Graeffe's sea cucumbers mimic to gain protection from predators. Photo by Dave Burdick.
Interestingly, adult Graeffe’s sea cucumbers actually do possess toxins that make them distasteful to potential predators, but the young individuals are not yet equipped with these chemical defenses and have to rely on mimicry to survive long enough to grow into their chemically-defended adult form. 

The development of this marvelous adaptation occurs through natural selection, an elegantly simple mechanism of evolution first described by Charles Darwin in 1859 (and nearly simultaneously by the lesser -known Alfred Wallace), all unbeknownst to these beautiful and fascinating sea cucumbers inhabiting the reefs of the Mariana Islands.  Who knew balate could be so cool?!

Saturday, May 7, 2011

Leg II Photo Contest

Congratulations to the winners of the 2011 MARAMP Leg II photo contest! We mixed it up this leg and picked the best photos by category; Fish, Invertebrate, People/Action, and Landscape. Following are the winning photos for each category.
Best Fish Photo
The scorpionfish, Sebastapistes sp., observed at Asuncion.
Photo by Marie Ferguson
Best Invertebrate Photo
The persian carpet worm, Pseudobiceros bedfordi, observed at Asuncion.
Photo by Paula Ayotte

Best People/Action Photo
NOAA diver Edmund Coccagna enjoying another day at the office at Agrihan.
Photo by Kevin Lino
Best Landscape Photo
The NOAA Ship Hi'ialakai off the coast of Sarigan.
Photo by Noah Pomeroy

HONORABLE MENTION - FISH
Photo by Kaylyn McCoy
Photo by Chris Sullivan
Photo by Noah Pomeroy
Photo by Marie Ferguson
Photo by Jake Asher
Photo by Kevin Lino
Photo by Jill Zamzow

HONORABLE MENTION - INVERTEBRATE
Photo by Paula Ayotte
Photo by Marie Ferguson
Photo by Kaylyn McCoy
Photo by Kaylyn McCoy

HONORABLE MENTION - PEOPLE/ACTION
Photo by Kaylyn McCoy
Photo by Jake Asher


HONORABLE MENTION - LANDSCAPE
Photo by Jake Asher
Photo by Jake Asher
Photo by Noah Pomeroy

Friday, May 6, 2011

CNMI Residents Tour the Hi'ialakai

by Dave Burdick.
NOAA photos by Annette DesRochers

With the Hi'ialakai in port after a 17-day expedition to the Mariana islands north of Saipan, the Ship and her crew welcomed nearly 200 government officials, students, teachers, and other residents interested in the Hi'ialakai and her mission to the breathtaking string of volcanic islands that comprise the Commonwealth of the Northern Mariana Islands.  Guests were given a tour of the Hi'ialakai by the Ship's crew and were briefed by scientists from the NOAA Pacific Islands Fisheries Science Center Coral Reef Ecosystem Division on the coral reef assessment and monitoring activities carried out from the ship.  The warm, inviting sun over Saipan accompanied a parade of feet, both big and small, across the deck of the Hi'alakai.  The invigorating day was filled with questions posed by inquisitive guests, intriguing anecdotes from the expedition to the northern islands, and even some laughs as the Ship's visitors listened intently as the crew of the Hi'ialakai and NOAA scientists eagerly shared their experiences of life on the ship and on the reef.  Below are a few photos of the day's events...

Chief Scientist for the 2011 Marianas expedition, Jacob Asher, briefs a delegation of local CNMI officials on the goals of NOAA CRED's Reef Assessment and Monitoring Program and an overview of the methods they use to achieve them.
A group of young visitors are given a tour of the Hi'ialakai's impressive bridge by Operations Officer, Lieutenant Tony Perry.
NOAA CRED Benthic Biologist, Edmund Coccagna, points out the location of towed-diver surveys around Saipan to a group of guests, while holding the impressive tow board and mounted camera in-hand.
Junior Officer, Ensign Brian Elliot, introduces a group of students to the dive chamber aboard the Hi'ialakai, which can be pressurized to treat injured divers in the event of a dive emergency
The Ship's guests are both informed and entertained by an animated demonstration of an ecological acoustic recorder (aka EAR), by NOAA CRED Oceanographer, Frank Mancini.
A group of local CNMI students examine the Coral Reef Ecosystems of the Mariana Islands, a report released in 2010 that presents the findings of the first three years of data collected by the NOAA CRED team.

A delegation of CNMI officials join the Ship's captain, Commander John Caskey, and NOAA CRED scientists for a group photo in front of the Hi'ialakai