000 04242cam a2200397Ii 4500
001 9780815364733
008 180706s2018 xx a o 000 0 eng d
020 _a9780815364733
_q(e-book : PDF)
020 _a9781351106900
_q(e-book: Mobi)
020 _z9780815364726
_q(hardback)
024 7 _a10.1201/9780815364733
_2doi
035 _a(OCoLC)1022760274
040 _aFlBoTFG
_cFlBoTFG
_erda
072 7 _aNAT001000
_2bisacsh
072 7 _aSCI039000
_2bisacsh
072 7 _aSCI072000
_2bisacsh
100 1 _aPandian, T. J.,
_eauthor.
_912666
245 1 0 _aReproduction and Development in Echinodermata and Prochordata
250 _aFirst edition.
264 1 _aBoca Raton, FL :
_bCRC Press,
_c2018.
300 _a1 online resource
336 _atext
_2rdacontent
337 _acomputer
_2rdamedia
338 _aonline resource
_2rdacarrier
490 0 _aReproduction and Development in Aquatic Invertebrates
505 0 0 _tchapter 1 Introduction /
_r T. J. Pandian --
_tchapter 2 Fisheries and Aquaculture /
_r T. J. Pandian --
_tchapter 3 Sexual Reproduction /
_r T. J. Pandian --
_tchapter 4 Asexual Reproduction /
_r T. J. Pandian --
_tchapter 5 Regeneration /
_r T. J. Pandian --
_tchapter 6 Sex Determination /
_r T. J. Pandian --
_tchapter 7 Sex Differentiation /
_r T. J. Pandian --
_tchapter 8 Reproductive Biology /
_r T. J. Pandian --
_tsection I Non-Chordate-Deuterostomia --
_tSection Ia: Echinodermata --
_tchapter 9 Cephalochordata /
_r T. J. Pandian --
_tchapter 10 Urochordata /
_r T. J. Pandian --
_tchapter 11 New Findings and Highlights /
_r T. J. Pandian --
_tsection II Chordate Deuterostomia.
520 2 _a"Echinoderms and prochordates occupy a key position in vertebrate evolution. The genomes of sea urchin share 70% homology with humans. Researches on cell cycle in sea urchin and phagocytosis in asteroids have fetched Nobel Prizes. In this context, this book assumes immense importance. Echinoderms are unique, as their symmetry is bilateral in larvae but pentamerous radial in adults. The latter has eliminated the development of an anterior head and bilateral appendages. Further, the obligate need to face the substratum for locomotion and acquisition of food has eliminated their planktonic and nektonic existence. Egg size, a decisive factor in recruitment, increases with decreasing depths up to 2,000-5,000 m in lecithotrophic asteroids and ophiuroids but remains constant in their planktotrophics. Smaller (< 18 mm) ophiuroids do not produce a lecithotrophic eggs but larger (> 110 mm) asteroids generate planktotrophic eggs only. Publications on sex ratio of echinoderms indicate the genetic determination of sex at fertilization but those on hybridization, karyotype and ploidy induction do not provide evidence for heterogametism. But the herbivorous echinoids and larvacea with their gonads harboring both germ cells and Nutritive Phagocytes (NPs) have economized the transportation and hormonal costs on gonadal function. Despite the amazing potential just 2 and 3% of echinoderms undergo clonal reproduction and regeneration, respectively. Fission is triggered, when adequate reserve nutrients are accumulated. It is the most prevalent mode of clonal reproduction in holothuroids, asteroids and ophiuroids. However, budding is a more prevalent mode of clonal reproduction in colonial hemichordates and urochordates. In echinoderms, fission and budding eliminate each other. Similarly, autoregulation of early development eliminates clonal reproduction in echinoids and solitary urochordates. In pterobranchs, thaliaceans and ascidians, the repeated and rapid budding leads to colonial formation. Coloniality imposes reductions in species number and body size, generation time and life span, gonad number and fecundity as well as switching from gonochorism to simultaneous hermaphorditism and oviparity to ovoviviparity/viviparity."--Provided by publisher.
650 0 4 _aBIOSCIENCEnetBASE
_912667
650 0 4 _aLIFESCIENCEnetBASE
_912668
650 0 4 _aOceanography
_912669
650 0 4 _aSCI-TECHnetBASE
_912670
650 0 4 _aSTMnetBASE
_912671
776 0 8 _iPrint version:
_z9780815364726
856 4 0 _uhttps://www.taylorfrancis.com/books/9780815364733
_zClick here to view.
942 _cEBK
999 _c70272
_d70272