External fertilization by free spawning is much more common than
internal fertilization among bathyal and abyssal echinoderms. A few
species of echinoids may pseudocopulate by exchanging gametes in
masses of mucus, which are retained on the adult spines. In deep-sea
species of Aspidodiadema, elongate sperm nuclei may be an adaptation
for swimming through the thick mucus that holds the eggs. Denny's
(1988) model of fertilization success predicts that, all else being equal,
external fertilization should be a more viable strategy on smooth sedimentary
bottoms in the deep sea than in the more turbulent flow conditions
found in shallow water. This is contrary to Thorson's Rule, which
predicts greater incidence of brooding (and, by inference, internal fertilization)
with depth. Reproduction at low population density is sometimes
achieved by echinoids, holothuroids, and ophiuroids by aggregation
behaviors. Some species aggregate year round and others remain
with spawning partners only during the reproductive season. Gametes of
echinothuriids contain lipid reserves that apparently allow sperm to
remain motile more than three times as long as typical shallow-water
echinoid sperm. Functional significance of some gamete modifications,
including biflagellate, dimorphic, and pigmented sperm, remains unknown.
Member of
Contributors
Publisher
Columbia University Press
Date Issued
1994
Note
Language
Type
Genre
Form
Extent
13 p.
Subject (Topical)
Identifier
FA00007333
Additional Information
External fertilization by free spawning is much more common than
internal fertilization among bathyal and abyssal echinoderms. A few
species of echinoids may pseudocopulate by exchanging gametes in
masses of mucus, which are retained on the adult spines. In deep-sea
species of Aspidodiadema, elongate sperm nuclei may be an adaptation
for swimming through the thick mucus that holds the eggs. Denny's
(1988) model of fertilization success predicts that, all else being equal,
external fertilization should be a more viable strategy on smooth sedimentary
bottoms in the deep sea than in the more turbulent flow conditions
found in shallow water. This is contrary to Thorson's Rule, which
predicts greater incidence of brooding (and, by inference, internal fertilization)
with depth. Reproduction at low population density is sometimes
achieved by echinoids, holothuroids, and ophiuroids by aggregation
behaviors. Some species aggregate year round and others remain
with spawning partners only during the reproductive season. Gametes of
echinothuriids contain lipid reserves that apparently allow sperm to
remain motile more than three times as long as typical shallow-water
echinoid sperm. Functional significance of some gamete modifications,
including biflagellate, dimorphic, and pigmented sperm, remains unknown.
internal fertilization among bathyal and abyssal echinoderms. A few
species of echinoids may pseudocopulate by exchanging gametes in
masses of mucus, which are retained on the adult spines. In deep-sea
species of Aspidodiadema, elongate sperm nuclei may be an adaptation
for swimming through the thick mucus that holds the eggs. Denny's
(1988) model of fertilization success predicts that, all else being equal,
external fertilization should be a more viable strategy on smooth sedimentary
bottoms in the deep sea than in the more turbulent flow conditions
found in shallow water. This is contrary to Thorson's Rule, which
predicts greater incidence of brooding (and, by inference, internal fertilization)
with depth. Reproduction at low population density is sometimes
achieved by echinoids, holothuroids, and ophiuroids by aggregation
behaviors. Some species aggregate year round and others remain
with spawning partners only during the reproductive season. Gametes of
echinothuriids contain lipid reserves that apparently allow sperm to
remain motile more than three times as long as typical shallow-water
echinoid sperm. Functional significance of some gamete modifications,
including biflagellate, dimorphic, and pigmented sperm, remains unknown.
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution 1010
This manuscript is an author version with the final
publication available and may be cited as: Young, C. M. (1994). The biology of external fertilization in
deep-sea echinoderms. In C. M. Young & K. J. Eckelbarger (Eds.), Reproduction, larval biology, and
recruitment of the deep-sea benthos (pp. 179-200). New York, NY: Columbia University Press.
publication available and may be cited as: Young, C. M. (1994). The biology of external fertilization in
deep-sea echinoderms. In C. M. Young & K. J. Eckelbarger (Eds.), Reproduction, larval biology, and
recruitment of the deep-sea benthos (pp. 179-200). New York, NY: Columbia University Press.
Date Backup
1994
Date Text
1994
Date Issued (EDTF)
1994
Extension
FAU
IID
FA00007333
Organizations
Attributed name: Harbor Branch Oceanographic Institute
Person Preferred Name
Young, Craig M.
Physical Description
13 p.
Title Plain
The biology of external fertilization indeep-sea echinoderms
Origin Information
1994
Columbia University Press
New York, NY
Place
New York, NY
Title
The biology of external fertilization indeep-sea echinoderms
Other Title Info
The biology of external fertilization indeep-sea echinoderms