5 eV to the spectral regime further beyond. (c) 2010 Elsevier Ltd. All rights reserved.”
“Many organisms live in spatially delimited habitat patches, where local extinctions are compensated by dispersal and recolonization of empty habitat patches. To predict the dynamics of such metapopulations in an era of large environmental changes, it is essential to understand the key abiotic factors
affecting local occurrence and temporal variation in patch occupancy. Here, we investigated the metapopulation dynamics of the marine copepod Tigriopus californicus, which is restricted to high intertidal and supralittoral rock pools. We monitored populations of T. californicus in northern California for almost 2 yr and observed pronounced A-1210477 nmr seasonal changes in patch Trichostatin A inhibitor occupancy with >80% population turnover annually. Copepod occupancy depended on the area, depth and desiccation of pools and shore height of pools. Most local extinctions were due to pool desiccation, and the pools with an intermediate desiccation risk and low shore
heights were the most frequently occupied. We highlight the significance of both the spatial position of pools (shore height) and their ephemerality in explaining occupancy pattern.”
“We report genital coupling of Drosophila teissieri Tsacas, 1971, a member of the Drosophila melanogaster species subgroup. The species subgroup consists of nine described species including the model organism Drosophila melanogaster Meigen, 1830. Despite numerous studies on the biology of this group, our understanding Selleck BI2536 of the evolutionary significance of the diversity in their genital structures is limited. This study provides evidence that (i) during the copulation, which lasts 41.1 min, a paired male genital part (dorsal branches of the basal processes of the aedeagus) open after being inserted into the female reproductive tract, (ii) female D. teissieri have a pair of pockets
on the dorsal side of their genitalia that receive bifurcated spines of the male genitalia (ventral branches of the basal processes of the aedeagus), and (iii) male genital parts, especially unique strong spines of the cerci, cause multiple copulatory wounds on membranous areas of the female genitalia. Within the established phylogeny of the D. melanogaster species subgroup, we discuss possible functions of and evolutionary transitions in these genital structures.”
“Hepatitis E virus (HEV) is a causative agent of hepatitis E. Recently, a novel hepatitis E-like virus was isolated from Norway rats in Germany. However, the antigenicity, pathogenicity and epidemiology of this virus are unclear because of the lack of a cell-culture system in which to grow it.