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Scientific
interests
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Growth
and Population biology of the short-spined
sea-urchin Tripneustes gratilla elatensis
Sea-urchins
(classis Echinoida) are a unique kind
of invertebrate animals. In one aspect, they show primitive traits --
circular shape, lack of head, eyes and central nervous center. On the
other hand, they are equipped with very complex chewing apparatus
("Aristotle's lantern"), very efficient locomotory system, hydraulic
tube-feet -- tubular pipes emerging from small holes-- called ambulacra
- with vaccum attachment discs at their end; Their skeleton is a
symmetrical structure made of close-fitting calcareous plates - which
grow in a definte pattern, constantly adding more and more plates -
held together by flexible collagenous fibers. They are armed with thick
spines, and smaller spines ending with sharp and sometimes poisnous
pincers (called pedicellaria)
Tripneustes
gratilla is
a common indo-pacific regular echinoid of the sea-urchin family Toxopneustidae
- bearing toxic pedicellaria. It covers itself with debris from bits of
coral to sand grains. Spines are short and harmless so the tube feet
are easily observable. Pedicellaria are trigeminous globiferous.
Average size in the Red Sea is about 70 mm, reaching 130 mm. I
described a subspecies -- Tripneustes
gratilla elatensis -- endemic
to the Red Sea (ref. 5, below)
I studied this
sub-species for several
years, and found that growth rates depend on available resources - at
optimum condition T. g. elatensis obtains
the adult size of 60 mm in 150 days, while under limiting condition -
low nutrition and presence of predators - they may remain stunted for
elongated periods. In has been shown that in shores exposed to winter
storms they breed in their first year, before being washed-out by the
waves, while in an adjacent, a more protected shore, they adopt a
multi-annual life pattern (refs. 12, 16 below).
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"Pneumatic"
nature of the echinoid skeletons
Sea-urchin
skeletons (tests) are unique among
vertebrates and invertebrates alike: They are formed as an outer shell,
containing inner fluid. It has been suggested that the test is affected
by mechanical forces, exerted by inner -- thethering mesenterial
threads -- and outer -- tubefeet muscles and the mechanical properties
of the collagen fibers that connect the test plates. Under low
mechanical activity the test tends to be globular, while under strong
adherence the test is flat.
 A chemically decalcified dead
sea-urchin
retains its shape, proving that the overall shape of the sea-urchin is
supported by the pneumatic properties of the soft tissue.
A special emphasis in
my studies were observations and experiments dealing with the skeleton
growth and calcification of the test, trying to demonstrate the
influence of mechanical pressure and forces applied by the contractile
and elastic tissues on the final shape. I showed that even without the
support of the hard plates, the sea urchin form retains it typical
shape, due to the soft tissue envelope, which acts as a matrix to the
calcium carbonate plates. An evidence to the pneumatic hypothesis is
the "soap-bubble" curvature pattern of the plates' edge, indicating
that inner pressure and outer surface tension of the plates' envelope
are primary to the calcification process. This and other evidence urged
me to propose a "bio- mechanical" model for the growth and
morphogenesis of sea urchins (ref. 10). The model was tested
experimentally by various scientists.
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Left: the reversal
curvature pattern of echinoid skeletal plates, showing in the plate
edge and earlier growth-lines. Right: a gap between two neighboring
plates in a living test, induces rapid growth of needle-like
'trabeculae', proving that available space enhances rapid growth.
Middle: graphic presentation of the "mechanical model".
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Two
types of deformed T. gratilla under pollution
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Deformities
of sea-urchin under pollution
conditions
Mass-deformities
(up to 70% urchins were affected)
of two types were shown in Tripneustes gratilla
under pollution conditions, in the Gulf of Eilat. The apparent cause
seems to be chemicals aiming to prevent calcium carbonate clogging of
pipe systems in a local power-plant (ref. 2) or hotel laundry (6). The
deformities are believed to result from less calcification and
softening of the mechanical tissues - inter-plate collagen fibers,
inner muscles etc. These observations seem to support the proposed
model.
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Hydroides dafnii
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The
biology of marine invertebrates
The Gulf of Eilat
(Aqaba) has a typical
Indo-Pacific fauna, with large amount of endemism. Pollution in the
northern part of the Gulf limits the number of living species. I have
followed the Gulf invertebrate fauna for over thirty years, and
published many semi-popular reports and lists. The polychaete
Eupomatus dafnii Amoureux, Rullier &
Fishelson, 1978 was named "in
honour of Dr. Ya'aqov Dafni, 1934 -, Israelic marine biologist at the
Heinz Steinitz Marine Biological Station, Eilat". (It has been changed
later to Hydroides dafnii )
I was also a co-author of the description of the polychaete genus and
species Filogranella elatensis
Ben-Eliahu & Dafni, 1979 (Ref. 1 below).
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Filogranella elatensis
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The
effect of pollution on the species diversity
I studied the
species diversity of invertebrate
community on dead stony corals, aiming to demonstrate the influence of
pollution on the community (ref. 11).
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Guiding
and teaching nature
I served many
years as warden and guide in the
Nature Conservation Organization, the Society for the Protection of
Nature, I dedicated much effort to develop a didactic approach to field
teaching and study. I wrote many articles -- in Hebrew -- maily on
environmental education.
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Dr. Dafni Website
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Marine
organisms web guides
I am the author
of several web guides to the
invertebrates and fishes of the Gulf of Eilat (Aqaba), included in my
website:
Corals
- http://www.dafni.com/corals
Non-Coral
Coelenterates - http://www.dafni.com/non-corals
Echinoderms
- http://www.dafni.com/echinodermata
Mollusca
- http://www.dafni.com/mollusca
Crustacea
- http://www.dafni.com/crustacea
Tunicates
- http://www.dafni.com/tunicata
Worms
- http://www.dafni.com/vermes
Sponges
- http://www.dafni.com/spongia
Sea
plants - http://www.dafni.com/plants
Fishes
-
http://www.dafni.com/fish/index.html
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SCIENTIFIC
PUBLICATIONS
1979-2008 
= PDF copies
- Ben-Eliahu,
N. & J. Dafni (1979) A new reef building serpulid genus and
species from Elat and the Red Sea, with notes on other gregarious tube
worms from Israeli waters.Isr. J. Zool. 28:199-208.
- Dafni,
J.(1980) Abnormal growth patterns in the sea urchin Tripneustes
cf. gratilla (L.) under pollution (Echinodermata:
Echinoidea). J. Exp. Mar. Biol. Ecol., 47:259-279.
- Dafni,
J. (1982) Skeletal deformations in the sea urchin Tripneustes
gratilla (L.) under pollution conditions in the Gulf of
Eilat, Red Sea. in: Echinoderms - Proceeding of the
Fourth International Conference,Tampa Bay, September 1981 (Ed. J.M.
Lawrence), A.A. Balkema, Rotterdam. pp. 69.
- Dafni,
J.& J. Erez (1982) Differential growth in Tripneustes
gratilla (Echinoidea). in: Echinoderms: Proceeding
of the Fourth Intenational Conference, Tampa Bay, September
1981(Ed. J.M. Lawrence), A.A. Balkema, Rotterdam. pp . 71-75.
- Dafni,
J. (1983a) A new sub-species of Tripneustes gratilla (L.)
from the northern Red Sea (Echinodermata: Echinoidea: Toxopneustidae). Isr.
J. Zool., 32:1-12.
- Dafni,
J.(1983b) Aboral depressions in the tests of the sea urchin Tripneustes
cf. gratilla (L.) in the
Gulf of Eilat, Red Sea. J. Exp. Mar. Biol. Ecol.,
67:1-15.
- Dafni,
J.& A. Diamant (1984) School-oriented mimicry, a new type of
mimicry in fishes. Mar.Ecol. Prog. Ser., 20:45-50.
- Dafni,
J. (1985) Effect of mechanical stress on the calcification pattern in
regular echinoids. in: Echinodermata - Proceeding of the
Fifth International Echinoderm Conference, Galway, September
1984 (Eds. B.E. Keegan and B.D.S. O'Connor), A.A. Balkema, Rotterdam.
pp. 233-236.
- Dafni,
J. (1986a) A biomechanical model for the morphogenesis of echinoid
tests. Paleobiology, 12:143-160.
- Dafni, J.
(1986b) Echinoid Skeletons as Pneu Structures. Konzepte SFB 230,
Universitat Tubingen und Stuttgart. Stuttgart, 13:9-96.
- Dafni,
J.& L. Fishelson (1986) Effect of pollution on the community
structure of animals associated with dead corals in Eilat (Gulf of
Aqaba, Red Sea). In: Environmental Quality and Ecosystem
Stability, Proc. Third Intern. Conf. of the Israeli Ecological Society,
(Ed. Z. Dubinsky & Y. Steinberger). Bar Ilan University Press,
Ramat Gan, Israel. Vol III/B; pp. 849-858.
- Dafni,
J.& R. Tobol. (1986/87) Population structure patterns of a
common Red Sea echinoid (Tripneustes gratilla elatensis)/Isr.
J. Zool., 34:191-204.
- Dafni,
J.& J. Erez (1987a) Skeletal calcification patterns in the sea
urchin Tripneustes gratilla elatensis: I. Basic
patterns. Mar. Biol. 95:275-287.
- Dafni,
J.& J. Erez (1987b) Skeletal calcification patterns in the sea
urchin Tripneustes gratilla elatensis: II. Effect
of various treatments. Mar. Biol. 95:289-297.
- Dafni,
J. (1988) A biomechanical approach to the ontogeny and phylogeny of
echinoids. in: C.R.C. Paul & A.B. Smith (Eds.)Echinoderm
Phylogeny and Evolutionary Biology. Oxford University Press,
Oxford. pp. 175-188.
- Dafni,
J. (1992) Growth rate of the sea urchin Tripneustes gratilla
elatensis. Isr. J. Zool., 38:25-33.
- Dafni, J.
(1995) The need for Damaged Reef Reclamation and Restoration. In: Proc.
International Conference: The Ecosystem of the Gulf of Aqaba
in Relation to the enhanced Economical Development and the Peace
Process II - Eilat, Jan 30th - Feb 2nd, 1995, 84-86
- Dafni, J.
(2001) Reduced biodiversity in the northern Gulf of Eilat. Paper
prepared for the evaluation committee and presented at the IUI seminars
on May 2, 2001. 7 pp.
- Dafni,
J. (2008) Diversity and Recent Changes in the Echinoderm Fauna of the
Gulf of Aqaba with emphasis on the Regular Echinoids. in: F. D. Por
(Ed.) Aqaba-Eilat, the Improbable Gulf : Environment,
Biodiversity and Preservation. Magnes Press Jerusalem 2008
pp. 226-234.
- Dafni,
J. (2010) Pollution induced mass-deformities in Tripneustes:
Biomechanical aspects. in: Echinoderms: Durham
Proceedings of the 12th International Echinoderm Conference, Durham,
New Hampshire, USA, 7-11 August 2006 (Eds L.G. Harris, S.A. Bottger,
C.W. Walker and M.P. Lesser), preprint.
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"
Routes and Trails in the
Eilat Region"
Gefen
Publications, Jerusalem (1995).
A guide book
-- in English -- describing 30
foot and car trails in the mountains of Eilat Region:
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"Gulf of
Eilat, from the Red Sea to the red
line..."
A
comprehensive account of the natural and human
history of the Gulf of Eilat
(Gulf of Aqaba), with reference to its endangered future. (in Hebrew)
Tcherikover Publ. House., Tel-Aviv
2000
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Echinoderms: strange is their middle name
Download the book - it is 7 mb
A short booklet describing the Echinoderms of the Red Sea and studies made by the author
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"Eilat's Coral
Reefs"
A pictoral guide and
description of the northernmost
coral reefs of the Red Sea (Gulf of Aqaba) (Hebrew
and English editions)
Ye'ela Publishing co., Eilat, Israel 2008
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"Eilat's
Mountains"
A pictoral guide for
the Geology and Geomorphology of the Southern Nagev
Landscapes, Geological formations, Minerals and Fossils (in Hebrew)
Ye'ela
Publishing co., Eilat, Israel 2010
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