|
Coral
Reef Science: Development Highlights
Eric
Borneman
This month, I cover an article on taxonomic
reappraisal of Montipora digitata...
Stobart, Ben. 2000. A taxonomic reappraisal
of Montipora digitata based on genetic and morphometric
evidence. Zoological Studies 3: 179-190.
Abstract:
A taxonomic reappraisal of Montipora
digitata based on genetic and morphometric
evidence. Recent molecular and reproductive studies have demonstrated
that two morphs of Montipora digitata are different
species. In this study, skeletal morphology was examined to
determine whether the species can be identified using traditional
taxonomic methods, and to establish suitable names for the
species. Univariate and multivariate analyses based on five
skeletal characters revealed that the two species do differ
in morphology. However, overlap of these characters renders
them unsuitable for species identification. A further character,
septal shape, was found to be species specific. Examination
of museum specimens using septal shape to distinguish the
species revealed that the two species correspond to the holotypes
for M. digitata (Dana 1846) and M. tortuosa
(Dana 1846). This study highlights the usefulness of a multiple-technique
approach to coral taxonomy, with each alternative technique
acting as a test for the other, which reduces the chance of
an erroneous conclusion.
Comments:
In light of the recent availability, both
wild and cultured, of what is commonly called "elkhorn
digitata," I found this article to be of some interest.
The particular morph of Montipora in the hobby that
has flattened ends and tends to turn rather bluish-grey under
strong light seemed to me to be clearly different from the
normal morphological variations of M. digitata. Looking
at the skeleton from a sample in my own tank, it appears that
the description in the article above fits this coral well
and that this coral should probably be described as M.
tortuosa. No other species fits the consistent growth
form of the genus, and although this paper describes samples
taken from the Great Barrier Reef off northern Queensland,
Australia, the range of the species overlaps areas where corals
for the trade are collected.
This paper also presents an easy-to-read
description of how multiple methods must be used to determine
species in corals, and describes the skeletal feature analysis
well for aquarists inclined to more carefully identify stony
corals.
Ronald
L. Shimek, Ph. D.
This month, I will discuss an interesting
article on zooxanthellae...
Andrew C. Baker, 2003. Flexibility and
specificity in coral-algal symbiosis: diversity, eco1ogy,
and biogeography of Symbiodinium. Annual Review of
Ecology, Evolution and Systematics. 2003. 34:661-89.
Abstract:
Reef corals (and other marine invertebrates
and protists) are hosts to a group of exceptionally diverse
dinoflagellate symbionts in the genus Symbiodinium.
These symbionts are critical components of coral reef ecosystems
whose loss during stress-related "bleaching" events
can lead to mass mortality of coral hosts and associated collapse
of reef ecosystems. Molecular studies have shown these partnerships
to be more flexible than previously thought with different
hosts and symbionts showing varying degrees of specificity
in their associations. Further studies are beginning to reveal
the systematic, ecological, and biogeographic underpinnings
of this flexibility. Unusual symbionts normally found only
in larval stages, marginal environments, uncommon host taxa,
or at latitudinal extremes may prove critical in understanding
the long-term resilience of coral reef ecosystems to environmental
perturbation. The persistence of bleaching-resistant symbiont
types in affected ecosystems, and the possibility of recombination
among different partners following bleaching, may lead to
significant shifts in symbiont community structure and elevations
of future bleaching thresholds. Monitoring symbiont communities
worldwide is essential to understanding the long-term response
of reefs to global climate change because it will help resolve
current controversy over the timescales over which symbiont
change might occur. Symbiont diversity should be explicitly
incorporated into the design of coral reef Marine Protected
Areas (MPAs) where resistance or resilience to bleaching is
a consideration.
Comments:
The author discusses the relationships
between the many species of zooxanthellae and their respective
hosts. Zooxanthellae were long thought to be all one species
of alga. Evidence to the contrary began to accumulate about
twenty years ago, although the implications of this still
have not begun to be appreciated in the aquarium hobby. Baker
discusses the present state of affairs, with about 11 described
"species" of Symbiodinium in seven major
groups. However, he indicates that there are indications that
there may well be over 200 species of zooxanthellae, and the
relationships between hosts and symbionts are by no means
as simple as have been thought. This review article would
be a good place to begin for any technically-oriented reef
aquarist who is wondering what these zooxanthellae are and
what they may be doing in the corals.
|
