Development of polymorphic microsatellite markers for the zebra finch (Taeniopygia guttata)

To study the population genetics as well as the mating system of captive zebra finch (Taeniopygia guttata) populations, we developed primers for 12 microsatellite loci and screened them in 529 individuals from two successive generations of a single captive population. All markers were polymorphic with five to 14 alleles per locus. We checked all markers for Mendelian inheritance in 307 offspring whose parents were known for sure. Four markers showed evidence for the presence of null alleles. Once allowing for null alleles, we found no mismatches between offspring and parents, suggesting a very low rate of mutation. Average observed and expected heterozygosities across the eight loci showing no evidence for null‐alleles was 0.819 and 0.812, respectively.     

Net biome production of the Amazon Basin in the 21st century

Global change includes multiple stressors to natural ecosystems ranging from direct climate and land‐use impacts to indirect degradation processes resulting from fire. Humid tropical forests are vulnerable to projected climate change and possible synergistic interactions with deforestation and fire, which may initiate a positive feedback to rising atmospheric CO₂. Here, we present results from a multifactorial impact analysis that combined an ensemble of climate change models with feedbacks from deforestation and accidental fires to quantify changes in Amazon Basin carbon cycling. Using the LPJmL Dynamic Global Vegetation Model, we modelled spatio‐temporal changes in net biome production (NBP); the difference between carbon fluxes from fire, deforestation, soil respiration and net primary production. By 2050, deforestation and fire (with no CO₂ increase or climate change) resulted in carbon losses of 7.4–20.3 Pg C with the range of uncertainty depending on socio‐economic storyline. During the same time period, interactions between climate and land use either compensated for carbon losses due to wetter climate and CO₂ fertilization or exacerbated carbon losses from drought‐induced forest mortality (?20.1 to +4.3 Pg C). By the end of the 21st century, depending on climate projection and the rate of deforestation (including its interaction with fire), carbon stocks either increased (+12.6 Pg C) or decreased (?40.6 Pg C). The synergistic effect of deforestation and fire with climate change contributed up to 26–36 Pg C of the overall decrease in carbon stocks. Agreement between climate projections (n=9), not accounting for deforestation and fire, in 2050 and 2098 was relatively low for the directional change in basin‐wide NBP (19–37%) and aboveground live biomass (13–24%). The largest uncertainty resulted from climate projections, followed by implementation of ecosystem dynamics and deforestation. Our analysis partitions the drivers of tropical ecosystem change and is relevant for guiding mitigation and adaptation policy related to global change.     

Comparative morphology and functional interpretation of the sutures in the dermal skull roof of temnospondyl amphibians

Sutures in the dermal skull roof of several Palaeozoic temnospondyl amphibians were studied, including Archegosaurus decheni, Sclerocephalus haeuseri, Cheliderpeton latirostre (Archegosauridae), Acanthostomatops vorax (Zatrachydidae), Onchiodon labyrinthicus (Eryopidae), Micromelerpeton credneri and Branchierpeton amblystomum (Dissorophoidea). Lamellae, flat bevels, butt joints, steep walls, and grooves are the sutural types occurring. Morphological sutural differences cannot be used as taxonomically relevant characters, as they mainly differ in their functional manifestations. Similarities of sutural patterns in taxa not closely related are most probably based on convergence, therefore sutural morphology allows functional conclusions rather than revealing phylogenetic relationships. The basic sutural pattern is described in Micromelerpeton credneri. Different textures and obliquity patterns of the sutural surfaces are characteristic of each region of the skull roof. In all temnospondyls studied, the median plane and the margin of the skull roof show a nearly uniform sutural morphology; the circumorbital region is most complex. Although the skulls studied are akinetic, mesokinetic movements of dermal elements along their sutures must have been permitted to guarantee the dynamic stability of the skull construction.     

Val 70,Phe 72 and the last seven amino acid residues of C—terminal are essential to the function of norepinephrine transporter

The norepinephrine transporter(NET) is a member of the Na^ /Cl^- dependent neurotransmitter transporter family and constitutes the target of several clinically important antidepressants.To delineate the critical amino acid residues and the function of C-terminal in regulating transport activity of NET,here we constructed two site mutants (V70F,F72V;V70I,F72V) and one C-terminal truncated mutant (Δ 611-617).The wild type and mutants of NET were expressed in Xenopus oocytes by injection of their cRNA.We found that all of these mutants lost their transport activity.These results indicate that the amino acid residues of V70 and F72,and the last seven amino acids of C-terminal are essential to the transport activity of NET.     

Unusual tubulins with deviant genetic code in the hypotrich ciliate Euplotidium itoi

Recently, we have shown the presence of molecules belonging to the cholinergic signalling system in the ciliate Paramecium primaurelia and in the sarcodine Dictyostelium discoideum . Propionylcholinesterase (PrChE) activity has been detected in single-cell amoebae of D. discoideum , using cytochemical, electrophoretic, and spectrophotometric methods (Falugi et al., Chemosphere , 48:407–414, 2002; Amaroli et al., Europ. J. Protistol ., 39:213–222, 2003). It has been suggested that this enzyme activity is involved in cell–cell and cell–environment interactions, as its inhibition by xenobiotic compounds affects cell migration and aggregation. In this work, we have spectrophotometrically evaluated the effect of an ELF-EMF of 300 T, 50 Hz, on PrChE activity after exposure of single-cell amoebae from 1 h up to 48 h at 22°C. The enzyme activity was inhibited significantly by 1-h- and 3-h exposures, whereas it was similar to the control value after a 4-h exposure. A significant increase in PrChE activity was found after 5- and 24-h exposures, while a decrease in PrChE activity appeared in 48-h-exposed samples. The increased PrChE activity detected in 24-h-exposed cells returned to the control value 24 h after transferring the amoebae to standard conditions. A delay in both migration and aggregation processes was observed in 3 h-exposed cells, corresponding to a decreased PrChE activity. After a 24-h exposure, a decrease in the fission rate and an increase in the cell size were found.     

Diarthrodella chilensis sp.n. und Rossopsyllus kerguelenensis quellonensis subsp.n. (Copepoda, Paramesochridae) von Chile

During a collecting trip to Chile, two species of Paramesochridae belonging to the genera Diarthrodella and Rossopsyllus were found. The new species D. chilensis is widely distributed on the coasts of central Chile. Up to now, the new subspecies R. kerguelenensis quellonensis is only known from Quellón, Island of Chiloé. The nominate subspecies R. kerguelenensis kerguelenensis Soyer, 1974 was described from the Kerguelen Archipelago.     

Long‐term increases in intrinsic water‐use efficiency do not lead to increased stem growth in a tropical monsoon forest in western Thailand

Rising atmospheric carbon dioxide [CO₂] can accelerate tree growth by stimulating photosynthesis and increasing intrinsic water‐use efficiency (iWUE). Little evidence exists, however, for the long‐term growth and gas‐exchange responses of mature trees in tropical forests to the combined effects of rising [CO₂] and other global changes such as warming. Using tree rings and stable isotopes of carbon and oxygen, we investigated long‐term trends in the iWUE and stem growth (basal area increment, BAI) of three canopy tree species in a tropical monsoon forest in western Thailand (Chukrasia tabularis, Melia azedarach, and Toona ciliata). To do this, we modelled the contribution of ontogenetic effects (tree diameter or age) and calendar year to variation in iWUE, oxygen isotopes, and BAI using mixed‐effects models. Although iWUE increased significantly with both tree diameter and calendar year in all species, BAI at a given tree diameter was lower in more recent years. For one species, C. tabularis, differences in crown dominance significantly influence stable isotopes and growth. Tree ring Δ¹⁸O increased with calendar year in all species, suggesting that increasing iWUE may have been driven by relatively greater reductions in stomatal conductance – leading to enrichment in Δ¹⁸O – than increases in photosynthetic capacity. Plausible explanations for the observed declines in growth include water stress resulting from rising temperatures and El Niño events, increased respiration, changes in allocation, or more likely, a combination of these factors.     

Localization of unmyelinated axons in rat skin and mucocutaneous tissue utilizing the isolectin GS-I-B

The a-D-galactose specific isolectin I-B4 from Griffonia simplicifolia (GS-I-B4) labels CNS microglia and certain peripheral neurons, including a subpopulation of small dark, type B dorsal root ganglion cells, some post-ganglionic sympathetic axons, and nearly all peripheral gustatory axons. The innervation patterns of GS-I-B4 reactive sensory ganglion cells are unknown for many peripheral target tissues, including their probable primary target, the skin. The present study describes the distribution of GS-I-B4 reactive axons in hairy and glabrous hindpaw skin and in the glans penis of rats, using both single and double-labelling histochemical techniques. Neuronal processes were identified using (1) histochemistry with horseradish peroxidase conjugated GS-I-B4 or (2) immunohistochemistry against PGP 9.5 to identify all axons, and biotinylated lectin histochemistry with avidin-FITC to identify the subpopulation of GS-I-B4 reactive axons. GS-I-B4 strongly labelled unmyelinated cutaneous sensory afferents, as well as some sympathetic efferents and visceral afferents. Lectin reactive axons were seen to innervate the upper hair shaft epidermis in hairy skin, and were abundant in the shallow dermis in hairy and glabrous skin and glans penis. Lectin reactive axons were also abundant in the lamina propria and distal urethral epithelium of the penis. These results provide new evidence for the cutaneous sensory role of GS-I-B4 reactive primary afferents, as well as evidence to support the contention that the lectin is a specific marker for a subpopulation of unmyelinated axons and not simply a marker for the myelination state of an axon.     

Temporal genetic structuring of a specialist parasitoid,Lysiphlebus hirticornis Mackauer (Hymenoptera: Braconidae) attacking a specialist aphid on tansy

In insect species characterized by inbreeding, limited dispersal, and a metapopulation structure, high genetic differentiation and reduced genetic diversity within local populations are expected. Using the model system Lysiphlebus hirticornis Mackauer, a specialist parasitoid of the tansy aphid, Metopeurum fuscoviride Stroyan (Hemiptera: Aphididae), we examined within‐site temporal population dynamics and genetics, including molecular variation at the tansy plant level. Aphid‐parasitoid dynamics were surveyed and parasitoids sampled from 72 tansy plants at 11 sites in and around Jena, Germany, over one growing season. Thereafter, parasitoid samples were genotyped at 11 polymorphic microsatellite loci. Colonization, extinction, and recolonization events occurred during the season. Allele numbers and identities were highly variable over time. When samples from all sites were pooled, allele number over all loci showed a decreasing trend with time. At the level of sites, temporal changes in genetic diversity were more variable. Analysis of molecular variance revealed that samples at the plant level explained the highest variance compared to at site level. We conclude that the genetic structuring of this insect is very fine grained (i.e. at the tansy plant level) and the temporal genetic diversity is explained by a combination of extinction and recolonization events, as well as inbreeding. © 2011 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 102 , 737–749.