© Biospeologica Bibliographia - Publications 2010-2
© Biospeologica Bibliographia - Publications 2010-2
© Biospeologica Bibliographia - Publications 2010-2
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<strong>©</strong> <strong>Biospeologica</strong> <strong>Bibliographia</strong><br />
<strong>Publications</strong> <strong>2010</strong>-1<br />
Page 11 sur 116<br />
http://dx.doi.org/10.1201/EBK1578086702-c10. In:<br />
TRAJANO (E.), BICHUETTE (M. E.) & KAPOOR (B.<br />
G.), Biology of Subterranean Fishes. Edited by TRAJANO<br />
(E.), BICHUETTE (M. E.) & KAPOOR (B. G.). ISBN:<br />
978-1-57808-670-2. eBook ISBN: 978-1-4398-4048-1.<br />
Science Publishers <strong>2010</strong>. 460 p.<br />
http://www.crcnetbase.com/doi/abs/10.1201/EBK1578086702-c10<br />
BHATTACHARYA (S.), <strong>2010</strong>. Murder at the bat cave. The<br />
New Scientist 205(2753, March 24):42-45. DOI:<br />
http://dx.doi.org/10.1016/S0262-4079(10)60732-4. ABS: As<br />
a mystery disease rips through North America's bat populations, scientists<br />
look for vital clues to stop the killer in its tracks.<br />
Biblioteca Judeţeană "Ovid Densusianu" Hunedoara -<br />
Deva, <strong>2010</strong>. Calendarul Personalităţilor Hunedorene <strong>2010</strong>.<br />
22 p.<br />
BICHUETTE (M. E.) & TRAJANO (E.), <strong>2010</strong>. Chapter 3.<br />
Conservation of Subterranean Fishes:65-80. DOI:<br />
http://dx.doi.org/10.1201/EBK1578086702-c3. In:<br />
TRAJANO (E.), BICHUETTE (M. E.) & KAPOOR (B.<br />
G.), Biology of Subterranean Fishes. Edited by TRAJANO<br />
(E.), BICHUETTE (M. E.) & KAPOOR (B. G.). ISBN:<br />
978-1-57808-670-2. eBook ISBN: 978-1-4398-4048-1.<br />
Science Publishers <strong>2010</strong>. 460 p.<br />
BILANDŽIJA (H.), ĆETKOVIĆ (H.) & JALŽIĆ (B.),<br />
<strong>2010</strong>. Strogo zaštićena vrsta pred izumiranjem? Dinarski<br />
špiljski školjkaš (Congeria kusceri) (Strictly protected<br />
species facing extinction? Dinaric cave clam (Congeria<br />
kusceri) ). Zbornik sažetaka Stručnog seminara o zaštiti<br />
špilja i podzemne faune / Buzjak, Nenad; Paar, Dalibor<br />
(ed). Zagreb, Samobor, Ogulin: Stručni seminar o zaštiti<br />
špilja i podzemne faune. Ogulin, Hrvatska, 30-31.01.<strong>2010</strong>.<br />
ABS: Congeria kusceri Bole, 1962 jedini je stigobiontni<br />
školjkaš na svijetu, tercijarni relikt i endem Dinarida.<br />
Prema Zakonu o zaštiti prirode Republike Hrvatske strogo<br />
je zaštićen (NN 70/05, 139/08), a nalazi se i na dodacima<br />
II i IV Direktive o staništima što znači da je zbog zaštite<br />
ove vrste nužno određivanje Posebnih područja zaštite kao<br />
dijela ekološke mreže NATURA 2000. Na Europski popis<br />
zaštićenih vrsta stavljen je na zahtjev Republike Slovenije<br />
u kojoj su na svega jednom lokalitetu pronađene samo<br />
ljušture, dakle niti jedna živa životinja. Vrsta je u<br />
Hrvatskoj zabilježena na ukupno petnaest lokaliteta, ali na<br />
većini nalazišta su pronađene samo ljušture. Žive su<br />
populacije dosad zabilježene na 5 lokaliteta. Tijekom<br />
2008. i 2009. godine suradnjom Hrvatskog<br />
biospeleološkog društva i Državnog zavoda za zaštitu<br />
prirode provedena su sustavna istraživanja ove vrste u<br />
sklopu projekta "Natura 2000 - Znanstvena analiza<br />
podzemnih vrsta (Congeria kusceri) s Dodatka II Direktive<br />
o zaštiti prirodnih staništa i divlje faune i flore". Utvrđeno<br />
je da su dvije od prije poznate populacije nestale pa su<br />
tako u Hrvatskoj danas preostale svega tri populacije,<br />
kojima također prijeti opasnost od nestanka. Ugrožavaju ih<br />
hidrotehnički zahvati, onečišćenje podzemnih voda kao i<br />
direktna devastacija podzemnih staništa. Zbog toga je<br />
Dinarski špiljski školjkaš uvršten u Crvenu knjigu<br />
podzemne faune Hrvatske u IUCN kategoriju CR (kritično<br />
ugrožen) kao vrsta kojoj prijeti izuzetno visok rizik od<br />
nestajanja na prirodnim staništima. KW: Congeria,<br />
kritično ugrožen (Congeria, critically endangered<br />
)hbilandz@irb.hr (hbilandz@irb.hr), 6. Apr. <strong>2010</strong>. u 12:57<br />
Bernard LEBRETON & Jean-Pierre BESSON<br />
Créé le : 01.01.<strong>2010</strong><br />
Modifié le : 30.06.<strong>2010</strong><br />
sati. http://bib.irb.hr/prikazi-rad?&lang=EN Croatian<br />
Scientific Biblography CROSBI&rad=462057<br />
BILANDŽIJA (H.), PODNAR (M.), JALŽIĆ (B.),<br />
PATARČIĆ (I.), TVRTKOVIĆ (N.) & ĆETKOVIĆ<br />
(H.), <strong>2010</strong>. Phylogeny and phylogeography of the cave<br />
bivalve Congeria kusceri, with an outline for its<br />
endangerment in Croatia:56-57, poster presentation. In:<br />
20 th International Conference on Subterranean Biology,<br />
Postojna, Slovenia, 29 August-3 September <strong>2010</strong>, ICSB<br />
<strong>2010</strong> Abstract Book, edited by: Ajda MOŠKRIČ and Peter<br />
TRONTELJ, ISBN 978-961-269-286-5. ABS: Congeria<br />
kusceri Bole, 1962 is the only stygobitic bivalve in the world. It is also<br />
the only surviving species of the genus Congeria which was widespread<br />
in the tertiary. Its current distribution is quite disjunct. Mitochondrial 16S<br />
rRNA and COI and nuclear ITS and 18S rRNA markers were employed<br />
to examine the position of the genus within the family Dreissenidae as<br />
well as to infer the relations between different populations. Our results<br />
support Congeria being the third extant genus of the family Dreissenidae<br />
as previous studies suggested. Within Congeria, two main<br />
phylogeographical groups were found: one encompassing Markov ponor<br />
(Lika region) and Suvaja (northern Bosnia) populations, and another<br />
comprising all southern Dalmatian and Hercegovinian populations.<br />
Uncorrected genetic distances (P) between them were up to 1.7%, and<br />
8.8%, for the 16S rRNA and the COI gne, respectively. In contrast to the<br />
relatively low level of genetic divergence between populations within<br />
second group (maximal P values being 0.5% for 16S rRNA and 1.4% for<br />
COI), genetic distances between Markov Ponor and Suvaja amounted to<br />
1.0% and 4.3% for 16S rRNA and COI, respectively. These results are in<br />
congruence with biogeographical data since Markov ponor and Suvaja<br />
are several hundred kilometres away and hydrologically isolated from the<br />
rest of the localities. The species is recorded in a total of fifteen localities<br />
in Croatia, but at most sites only shells were found. Live populations<br />
were documented in only five sites, but the surveys in 2008 revealed that<br />
the two populations disappeared. In addition to being strictly protected by<br />
the Croatian law, the species is listed in the Annexes II and IV of the<br />
Habitats Directive. Nevertheless, two out of three remaining populations<br />
could be facing serious destruction if not extinction in the near future. All<br />
this led to the enlistment of Congeria kusceri in the Red list of Croatian<br />
cave fauna in the IUCN category CR. http://www.icsb<strong>2010</strong>.net/<br />
BIZJAK MALI (L.) & BULOG (B.), <strong>2010</strong>. Ultrastructure of<br />
previtellogene oocytes in the neotenic cave salamander<br />
Proteus anguinus anguinus (Amphibia, Urodela,<br />
Proteidae). Protoplasma 246(1/4, October):33-39, from the<br />
issue entitled "Special Issue: Microscopy Conference in<br />
Graz 2009, Guest Editor: U. Lütz-Meindl". DOI:<br />
http://dx.doi.org/10.1007/s00709-010-0117-9. ABS:<br />
Oogenesis in the neotenic, cave dwelling salamander Proteus anguinus<br />
anguinus has not been studied yet, and this study provides a detailed<br />
description of the early growth of the oocytes. Early previtellogene<br />
oocytes ranging from 100 to 600 µm in diameter were examined by light<br />
and transmission electron microscopy. The oocytes were divided into two<br />
stages based on size, color, and histology. Stage I oocytes can be<br />
identified by their transparent cytoplasm and a homogenous juxtanuclear<br />
mass, composed of numerous lipid droplets and mitochondria. Stage II<br />
oocytes are no longer transparent and have increased in diameter to 300-<br />
600 µm, and many cortical alveoli differing in size have appeared. The<br />
common and most predominant ultrastructural characteristics of both<br />
stages of previtellogene oocytes are extensive quantities of smooth<br />
membrane, numerous mitochondria, and lipid droplets, as well as<br />
abundant free ribosomes. Myeline-like structures and remarkable<br />
annulate lamellae of closely packed membrane stacks are also frequently<br />
observed. Previtellogenic oocytes are the most predominant oocytes in<br />
the ovaries of Proteus, and while they possess certain structural<br />
characteristics typical for other amphibians, some features are unique and<br />
could result from adaptation to the subterranean environment. KW:<br />
Proteus anguinus, Ovary, Oogenesis, Previtellogenesis, Oocyte,<br />
Ultrastructure.<br />
BIZJAK MALI (L.), TALABER (I.), ŽIBERT (U.) &<br />
BULOG (B.), <strong>2010</strong>. Oogenesis in Proteus: Stages of<br />
oocyte development:116-117, poster presentation. In: 20 th<br />
International Conference on Subterranean Biology,<br />
Postojna, Slovenia, 29 August-3 September <strong>2010</strong>, ICSB