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Title: Coastal Ecosystems of Martinique


1
Coastal Ecosystems of Martinique
Exchange New-York/Marin 2004 Translation by
Daniel Nethery
Micheline Elisabeth-Mesnager, Josiane
Mahieu-Pain, Claude Séraline Base nautique de
South Discover plongée Sainte-Luce, FWI
téléphone 0596 62 46 74
2
Part 1
  • Martinique

3
Martinique, a Caribbean Island
http//www.lib.utexas.edu
4
Physical Aspects
  • Tropical Climate Temperatures ranging between
    20C and 31C (68F and 88F)
  • Two Seasons
  • Dry Season (February to May)
  • Wet Season (August to November) characterised by
    hurricanes.
  • The island belongs to the Caribbean Volcanic Arc.

5
Three PrincipalMarine Ecosystems
Photos J. Mahieu-Pain
6
Where are they found?
  • Along the coast, in particular
  • along the Atlantic coast, and
  • to the south of the island

Document Ifrecor http//www.environnement.gouv.f
r/ifrecor/domtom/matdmf.htm
7
Part 2
  • The Three PrincipalMarine Ecosystems

8
The Mangrove Swamp
Photos J. Mahieu-Pain
Rhizophora mangle
9
The Mangrove Swamp
  • A littoral forest covering 1800 hectares (4450
    acres).
  • Develops in calm zones.
  • Very rich in sediments.
  • A special physiology to tolerate a salty
    enviroment in oxygen starved and unstable
    conditions.

Photos J. Mahieu-Pain
Rhizophora mangle
10
The Mangrove Swamp
In Marine Life of the Caribbean A.Jones N.
Sefton
  • A particular structure

11
Living in a Salty and Oxygen-Starved Environment
  • The prop-roots of the Rhizophora mangle.
  • The pneumatophores (small, woody roots) of the
    Avicennia germinans and Laguncularia racemosa.
  • The presence of salt glands to excrete salt.
  • The germination of the seeds of the Rhizophora
    mangle on the mother-plant viviparity.

Photos J. Mahieu-Pain
Avicennia germinans
12
Roles of the Mangrove Swamp
  • Nurseries for numerous species.
  • Stablisation of sediments and filtration by
    roots.
  • Protection of the coasts against erosion.

In Marine Life of the Caribbean A.Jones N.
Sefton
13
A Haven for Numerous Species
Photos J. Mahieu-Pain
14
Sea Grass Beds
Photos J. Mahieu-Pain
15
Sea Grass Beds
  • Submarine prairies of flowering plants covering
    an area of 3900 ha (9600 acres).
  • Two dominant species Thalassia testudinum and
    Syringodium filiforme.

Thalassia testudinum
Photos J. Mahieu-Pain
Syringodium filiforme
16
The Sea Grasses
Photos J. Mahieu-Pain
  • Photosynthetic organisms that live to a depth of
    10m (30ft).
  • Accompanied in general by green algae.
  • Provide a haven for numerous species,
    particularly during early stages of development.

17
Sea Grass Functions
Photos Claude Séraline
Strombus giga
  • Retain sediments and so contribute to the
    prevention of erosion.
  • Provide a habitat for species with an important
    economic value white sea urchins (Tripneuses
    ventricosus) and conches (Strombus giga).

18
The Coral Reef
Photos J. Mahieu-Pain
Montastraea annularis
19
The Coral Reef
  • 75 km (47 miles) of fringing reef, giving rise to
    a total surface of 150 km2 (60 square miles).

20
The Coral Reef
  • Rocky formation, constructed by living creatures.
  • Requires warm sea temperatures from 20C to 30C
    (68F to 88F) and clear, aerated waters to a
    maximum depth of 60 m (180 ft).
  • Associated with the mangrove swamp and sea
    grasses.
  • How is the reef constructed?

21
The Constituants of the Reef
  • Foundation structure coral colonies.
  • These are building elements associated with other
    organisms fixed to the colony algae and sponges.

Photos J. Mahieu-Pain
Diploria labyrinthiformis
22
What is a Colony?
Photos J. Mahieu-Pain
Diploria labyrinthiformis
  • An organised structure of several thousand
    identical animals called polyps.
  • The exterior is the only living part of the
    colony.

23
The PolypThe Fundamental Element
  • Each colony comprises a multitude of identical
    organisms the polyps.
  • The polyp is a very simple organism that can be
    compared to a sack with a single opening that
    functions as a mouth-anus surrounded by tentacles
    (a multiple of six).

Photos J. Mahieu-Pain
24
Structure of the Polyp
  • A simple organism.
  • Epidermis with stinging cells cnidoblasts to
    capture prey.

Classification phylogénique du vivant Guillaume
Lecointre et Hervé Le Guyader Ed Belin
25
How Does The Polyp Feed?
  • The stinging cells paralyse small prey which are
    then ingested
  • But this is extremely insufficient!
  • The cells of the polyp shelter minuscule algae
    (Zooxanthellae) which undergo photosynthesis.
  • 95 of nutrients are provided by these algae.
  • In exchange, the polyp provides CO2 and mineral
    substances the term symbiosis is used.

26
Birth of a Colony
  • Sexual reproduction permits the colonisation of
    new territory.
  • The polyps lay eggs.
  • A larva forms which is mobile in the water.
  • The larva undergoes metamorphosis into a polyp
    which fixes itself to the sea floor.

Photo NOOA http//www.nos.noaa.gov/education/cor
als/coral06_reproduction.html
27
From Polyp to Colony
  • The polyp, having landed on the sea floor,
    constructs a calcium carbonate skeleton.
  • It multiplies through budding or division, an
    asexual mode of reproduction.
  • The result a colony of identical individuals
    originating from an initial polyp.

28
Functions of the Coral Reef
  • Biological large biodiversity.
  • Physical protection of the coasts against the
    ferocity of the ocean swell.
  • Economic
  • Fishing
  • Tourism

Photos J. Mahieu-Pain
Diploria labyrinthiformis
29
Part 3The Inhabitants
30
Biological Diversity
Doc Ifrecor
31
Algae
  • Red, brown and green algae, always
    photosynthetic.
  • Macro algae and micro algae.
  • Live fixed, mobile (phytoplankton) or symbiotic
    (corals).
  • Proliferation according to availability of
    mineral material.
  • Primary Producer at the base of the trophic
    food pyramid.

Photos Claude Séraline
Caulerpa verticilata
32
Porifera
Photos J. Mahieu-Pain
  • Primitive animals, always non mobile.
  • Animals which filter
  • The external surface comprises miniscule pores
    which allow water to enter.
  • Oxygen and nutrients are retained by the cells.
  • Filtered water is released through osculum pores.

Desmosponge
Classification phylogénique du vivant Guillaume
Lecointre et Hervé Le Guyader Ed Belin
33
Cnidarians
  • Coral which builds the reef, anemones, soft
    coral, jellyfish.
  • All species have stinging cells in common,
  • cells specialising in the defence of the animal
    and in the capture of prey that they paralyse.

Photo Claude Séraline
Condylactis gigantea
34
Segmented Worms
  • Soft ringed body.
  • Some worms live in a tube or burrowed into the
    sand.
  • Have elaborate fanlike or elongated tentacles for
    respiration and nutrition,
  • tentacles which retract when the animal is
    threatened.
  • Others wander (errants).
  • Feed on polyps and other animals.
  • Harmful to touch.

Hermodice carunculata
Photo Paul Humann reef creature, ed Ned Deloach
Photos J. Mahieu-Pain
Sabellastarte magnifica
35
Molluscs
  • A soft body, often protected by a shell.
  • The shell is secreted by the mantle.
  • They feed themselves
  • By filtration (filaments) (oysters) the
    lamellibranchia.
  • By digesting vegetable (algae or sea grass) or
    animal (polyps of the gorgonia) material with a
    rough tongue.
  • By hunting prey (octopus) which are captured with
    tentical arms.

Cyphona gibbosum
Photos J. Mahieu-Pain
Lima scabra
36
Crustaceans
  • Have a body covered by a shell.
  • In order to grow, the shell must be periodically
    cast aside. The rigid shell is eliminated and
    replaced by another which remains soft for a few
    days.
  • After mating, millions of eggs are laid from
    which hatch the larvae which eventually
    metamorphose into adults.
  • Body divided into two main parts the tail and
    the cephalothorax (head and thorax).

Photos J. Mahieu-Pain
Periclimenes pedersoni
37
Echinoderms
  • Echinoderms the sea lily, sea star, serpent
    star, sea cucumber and sea urchins.
  • Black Sea Urchins live particularly on the reef,
    the White among the sea grasses.
  • Posses a pentagonal symetry
  • 5 arms
  • 5 teeth in the buccal system
  • Eat algae on the coral, therefore aiding its
    development.

Davidaster rubiginosa (haut) Diadema antillarum
(en bas)
Photos J. Mahieu-Pain
38
Fish
  • Vertebrates with spindle-shaped or even wavy
    bodies.
  • Fins propulsion and stabilisation.
  • Respiration by gills.
  • Herbivores micro- or macroscopic algae.
  • Carnivores, predators or not. Important predators
    at the head of the food chain (extremely
    concentrated toxins).

Photos J. Mahieu-Pain
Diodon holocanthus
39
Part 4 Environments Worth Protecting
40
Fragile Environments
  • Highly endemic
  • Climatic, natural and human threats

41
The Mangrove SwampA Threatened Environment
  • Destroyed
  • for coastal developments.
  • by the overexploitation of resources.
  • by the disposal of toxic substances or the
    dumping of waste.

42
Coral is Fragile!
  • Temperature Rise the zooxanthellae die.
  • Reduction of light (turbidity) the algae produce
    less.
  • Human traffic, shocks serious disruptions to the
    living surface.
  • Chemical products (hydrocarbons, pesticides etc)
    polyps become more fragile.
  • Different natural diseases.

43
Part 5 New species
Homo delphinus
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And that is all!!Thank you for listening.
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