© 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 23 sur 116<br />
populations has become critical in the face of widespread anthropogenic<br />
modifications of climate, landscapes, and availability of intact habitat.<br />
Understanding the mechanisms underlying extinction in the wild is<br />
complicated because external drivers - such as habitat loss or hunting<br />
pressure - and intrinsic traits - such as dispersal abilities and body size -<br />
and their interactions contribute to the eventual demise of a population.<br />
Most bat extinctions in the West Indies have been attributed to habitat<br />
loss caused by natural climate change or anthropogenic deforestation, but<br />
the role of intrinsic traits in the extinction of some species remains<br />
obscure. We analyzed regional patterns of extinction using two<br />
complementary approaches, island biogeography and phylogenetic<br />
generalized estimating equations, to investigate the relative contribution<br />
of extrinsic and intrinsic extinction drivers in this fauna. Glacial and postglacial<br />
changes in surface area and distances between landmasses can<br />
explain up to 96% of the variation in extinction between islands,<br />
demonstrating the power of this null model to explain the number of<br />
species lost across communities. This island-based method cannot help<br />
identify vulnerable species, or traits that make populations more<br />
susceptible to extinction. Phylogeny-based analyses of the relationship<br />
between extinction and species traits suggests obligate hot cave dwellers<br />
and wide-ranging species were more vulnerable to extinction during the<br />
Pleistocene glaciations. These complementary approaches provide a<br />
framework for understanding the role of extrinsic and intrinsic drivers<br />
and their interaction in driving Holocene and Anthropocene extinctions.<br />
DE ARMAS (L. F.), <strong>2010</strong>. Schizomida de Sudamérica<br />
(Chelicerata: Arachnida). Boletín de la Sociedad<br />
Entomológica Aragonesa 46(1 er semestre):203-234. RES: Se<br />
realiza un inventario de los esquizómidos de Sudamérica, citando una<br />
sola especie troglobia de Ecuador: Tayos ashmolei Teddell &<br />
Cokendolpher, 1984.<br />
DE ARMAS (L. F.), <strong>2010</strong>. Nuevos arácnidos de Puerto Rico<br />
(Arachnida: Amblypygi, Araneae, Opiliones,<br />
Parasitiformes, Schizomida, Scorpiones). Boletín de la<br />
Sociedad Entomológica Aragonesa 47(2 e semestre):55-64.<br />
RES: Se registran taxones de Puerto Rico, describiendo varias nuevas<br />
especies de cuevas de este país sudamericano.<br />
DEHARVENG (L.), TIAN (M.), LI (Y.) & BEDOS (A.),<br />
<strong>2010</strong>. Invertebrate biodiversity of the Guangxi caves<br />
(southern China):131. In: 20 th International Conference on<br />
Subterranean Biology, Postojna, Slovenia, 29 August-3<br />
September <strong>2010</strong>, ICSB <strong>2010</strong> Abstract Book, edited by:<br />
Ajda MOŠKRIČ and Peter TRONTELJ, ISBN 978-961-<br />
269-286-5. ABS: Fast progress in the knowledge of Southern China<br />
cave biodiversity occurred during the last two decades, and accelerated<br />
since 2005. Recent efforts focused on the caves of Guangxi. The present<br />
paper lists all troglobitic invertebrates, described or undescribed species,<br />
that were recorded and collected so far in this province. To the impressive<br />
radiations of cave fish and cave beetles already documented, we can now<br />
add the radiation of cave Sinella among springtails and that of several<br />
families of millipedes. Several of the taxa encountered, including several<br />
of the most diversified ones, have no close relatives outside caves in the<br />
region, and can be qualified of relicts. Distribution patterns of the most<br />
remarkable groups of Guangxi troglobites are given and discussed.<br />
Geographical, ecological and taxonomical gaps in our knowledge are<br />
emphasized and future prospects are outlined. http://www.icsb<strong>2010</strong>.net/<br />
DELANGE (Y.), <strong>2010</strong>. Il y a 200 ans naissait Charles<br />
DARWIN et paraissait la Philosophie zoologique de<br />
LAMARCK. Les Amis du Muséum national d'Histoire<br />
naturelle 241(Mars):4-9.<br />
DELIRY (C.), <strong>2010</strong>. Ptéridophytes de la région Rhône-Alpes<br />
& Dauphiné. Histoires Naturelles 11. BL: Cf Adiantum<br />
capillus-veneris (Capillaire de Montpellier), fentes humides et grottes sur<br />
terrain calcaire ou siliceux, fossés d'irrigation; Polypodium cambricum<br />
(Polypode austral - syn.: Polypodium australe), rochers et murs<br />
ombragés, grottes; Polypodium interjectum (Polypode intermédiaire -<br />
parents ancestraux Polypodium cambricum et Polypodium vulgare), murs<br />
et rochers, grottes.<br />
DELIRY (C.), <strong>2010</strong>. Éléments de biodiversité dans la région<br />
Rhône-Alpes & Dauphiné. Histoires Naturelles 12. Février<br />
<strong>2010</strong> (1) Deuxième édition - Février <strong>2010</strong> (2) / Troisième<br />
édition - XXX.<br />
Bernard LEBRETON & Jean-Pierre BESSON<br />
Créé le : 01.01.<strong>2010</strong><br />
Modifié le : 30.06.<strong>2010</strong><br />
DELLUC (B.) & DELLUC (G.), <strong>2010</strong>. Les découvertes d'art<br />
pariétal en Dordogne depuis un demi-siècle (1947-2000).<br />
Spelunca Mémoires 34(2009):33-64. BL: Cf p. 35, grotte de<br />
Rouffignac (ou grotte de Miremont) Henri BREUIL la parcourt sur 400<br />
mètres environ, durant une ou deux heures, le 4 Août 1915, le nez au sol,<br />
à la recherche d'un Trechus cavernicole, "spécial à cette caverne et depuis<br />
longtemps connu", avec l'entomologiste Charles ALLUAUD.<br />
DeLONG (L.), <strong>2010</strong>. El Malpais National Monument to<br />
Close Caves. El Malpais News Release. National Park<br />
Service U. S. Department of the Interior, 2 p.<br />
http://www.caves.org/WNS/index.htm<br />
DELTSHEV (C. C.), VRENOSI (B.), BLAGOEV (G. A.)<br />
& LAZAROV (S.), <strong>2010</strong>. A faunistic and<br />
zoogeographical review of spiders in Albania (Arachnida:<br />
Araneae):112. In: 18 th International Congress of<br />
Arachnology, University of Podlasie & International<br />
Society of Arachnology, Siedlce, Poland, 11-17 July <strong>2010</strong>,<br />
Book of Abstracts, editor: Marek ŻABKA, ISBN: 978-83-<br />
7051-575-1, 507 p. ABS: The spider fauna of Albania is represented<br />
by 168 species from 34 families. In this number, 54 species are new<br />
announced for the country. This number was established after a critical<br />
review of the existing literature data and original collection made in last<br />
15 years during the field survey covering mostly the coastal parts, caves<br />
and some mountain areas. This number of species is not final, because the<br />
territory of Albania is poorly explored. According to their current<br />
distribution, the Albanian species can be classified in 17 zoogeographical<br />
categories, grouped into 4 complexes: widely distributed, European,<br />
Balkan endemics and Mediterranean. Widely distributed species are<br />
dominants (61 species), but the most characteristic are Balkan endemics<br />
(30 species). The number of endemics is really high and reflects the local<br />
character of the fauna.<br />
DENITTO (F.), PASTORE (M.) & BELMONTE (G.),<br />
<strong>2010</strong>. Occurrence of the Guinean species Herbstia nitida<br />
Manning & Holthuis, 1981 (Decapoda, Brachyura) in a<br />
Mediterranean submarine cave and a comparison with the<br />
congeneric H. condyliata (Fabricius, 1787). Crustaceana<br />
83(8):1017-1024. DOI:<br />
http://dx.doi.org/10.1163/001121610X513685.<br />
DHORA (D.), <strong>2010</strong>. Regjistër i Specieve të Faunës së<br />
Shqipërisë <strong>2010</strong> [Register of Species of the Fauna of<br />
Albania <strong>2010</strong>]. Botimet, Shkodër: Camaj-Pipa. ISBN: 978-<br />
99956-02-07-3, Copyright<strong>©</strong>: Dhimitër DHORA, 207 p.<br />
DIEULEVEUT (T.), LIERON (V.) & HINGRAT (Y.),<br />
<strong>2010</strong>. Nouvelles données sur la répartition des Chiroptères<br />
dans le Maroc oriental (années 2007 à 2009) [New data on<br />
the distribution of Bats in eastern Morocco (years 2007 to<br />
2009)]. Bulletin de l'Institut scientifique, section Sciences<br />
de la Vie, 32(1, Juillet):33-40. RÉS: De nouvelles données pour<br />
19 espèces de chauves-souris rencontrées au cours de prospections<br />
intensives réalisées dans l'est du Maroc entre 2007 et 2009 sont<br />
présentées. Ces espèces sont Rhinopoma microphyllum, Rhinopoma<br />
cystops, Rhinolophus ferrumequinum, Rhinolophus hipposideros,<br />
Rhinolophus mehelyi, Rhinolophus blasii, Asellia tridens, Myotis punicus,<br />
Myotis nattereri, Myotis emarginatus, Eptesicus isabellinus, Hypsugo<br />
savii, Pipistrellus pipistrellus, Pipistrellus kuhlii, Pipistrellus rueppellii,<br />
Otonycteris hemprichii, Plecotus gaisleri, Miniopterus schreibersii,<br />
Tadarida teniotis. Certaines d'entre elles (Rhinopoma microphyllum,<br />
Rhinolophus blasii, Myotis nattereri, Myotis emarginatus, Pipistrellus<br />
rueppellii, Otonycteris hemprichii et Tadarida teniotis) n'avaient que<br />
rarement été contactées précédemment et nos prospections apportent ainsi<br />
des informations inédites sur leur statut et leur répartition. MC:<br />
Chiroptères, répartition, Maroc. ABS: New records of 19 bat species from<br />
eastern Morocco are presented, including Rhinopoma microphyllum,<br />
Rhinopoma cystops, Rhinolophus ferrumequinum, Rhinolophus<br />
hipposideros, Rhinolophus mehelyi, Rhinolophus blasii, Asellia tridens,<br />
Myotis punicus, Myotis nattereri, Myotis emarginatus, Eptesicus<br />
isabellinus, Hypsugo savii, Pipistrellus pipistrellus, Pipistrellus kuhlii,<br />
Pipistrellus rueppellii, Otonycteris hemprichii, Plecotus gaisleri,<br />
Miniopterus schreibersii, Tadarida teniotis. All data have been collected<br />
between 2007 and 2009. Some of them relate to species until now rarely