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The former and current distribution of the quokka, Setortix brachyurus, was mapped from published and all available unpublished records. At the time of European settlement the quokka was widespread and abundant and its distribution encompassed an area of approximatelyThe former and current distribution of the quokka, Setortix brachyurus, was mapped from published and all available unpublished records. At the time of European settlement the quokka was widespread and abundant and its distribution encompassed an area of approximately 41 200 km2 of south-west Western Australia inclusive of two offshore islands, Bald Island and Rottnest Island. Historical reports indicated an extensive population decline occurred in the 1930s. The decline continued, with a previously undocumented decline apparent in the period from 1980 to 1992. However, this decline may be an artefact of the time scales used for mapping and may well equate with a previously reported decline lor a suite of south -west mammals in the 1970s. By 1992 the quokka´s distribution had been reduced to an area of approximately 17800 km2. An increased awareness of the presence of the quokka on the mainland has resulted in numerous reportings of quokka presence since 1992, has confimled the existence of several populations at the northern extent of the quokka´´s known geographic range and indicated the cmrent, 2005, distribution to be similar to that in 1992. However, survey and population estimates at six of these mainland locations from the northem jarrah forest indicated low abundance. There have been no population estimates elsewhere on the mainland. Two populations have been reported tiom the Swan Coastal Plain, but neither has been confirmed extant. Predation by the introduced fox, Vulpes vulpes, is implicated as a major cause of the quokka´s initial decline, while ongoing predation, habitat destruction and modification through altered tire regimes have contributed to the continued decline. Specific conservation management actions are recommended, namely: (i) Implementing an active adaptive management program in the northern jarrah forest to determine quokka population response to habitat manipulation through the use of fIre, fox baiting and pig control; (ii) Surveying the Stirling fumge and Green Range populations with emphasis placed on determining population size and population genetic structure; (iii) Surveying the reported occurrences from the Swan Coastal Plain, with emphasis on unambiguously determining presence. If confirmed, priority should he directed to assessing population size and determining the management requirements to ensure persistence of the population; (iv) Surveying southem forest and south coast populations to assess quokka population size, the extent of movement between sllbpopulations and assessment of the range of habitat types used by quokkas. The latter should be combined with spatial analyses of known extant populations and suitable and potentially suitable habitat; (v) Determining the role of tire in establishing and maintaining preferred habitat of southern forest and south coast populations; and (vi) Establishing a program to assess the potential effects from management operations.
Total body water increases in pregnancy and while the uterus, placenta, fetus, and amniotic fluid constitute part of this increase, the largest component is in the extracellular water. Fat stores also increase and thus the distribution volumes of all drugs expand, but the major effect is seen in polar drugs which are confined to the extracellular space. Cardiac output and renal function also increase and elimination of polar drugs is acelerated. In contrast, the elimination of lipophilic drugs may be retarded, and the effect on intermediate drugs is variable. Polar drugs cross the placenta slowly and accumulate in amniotic fluid and therefore in the fetal gut lumen. Lipophilic drugs cross the placenta rapidly and their transplacental distribution is dependent on relative maternal and fetal affinity: this is determined largely by protein binding on either side of the placenta. The. fetus and neonate dispose of all drugs less rapidly than adults, the most efficient elimination processes being sulphate conjugation and renal excretion.
A skeletal world revision of the genus is presented to accompany a family account for Flora Malesiana. 82 species are recognised, of which 74 occur in the Malesiana region. Six species are desctibed as new, one species is raised from infraspecific status, and five species are restored from synonymy. Many names are typified for the first time. Three widespread, or locally abundant hybrids are also included. Full descriptions are given for new (6) or recircumscribed (7) species, and emended descriptions of species arc given where necessary (9). Critical notes are given for all the species. Little known and excluded species are discussed. An index to all published species names and an index of exsiccatae is given.
Die vorliegende Arbeit soll einen Beitrag zur Biologie der Honigbiene darstellen. Sie ist zunächst eine biologisch-deskriptive Arbeit. Ich habe die Biene bei ihrer mannigfachen Tätigkeit in freier Natur wie auch in ihrem Stocke beobachtet und habe festzustellen versucht, wie sie sich verhält, wenn ihr Körper mit irgendeinem Schmutzstoff in Berührung kommt. ...
Through the kind assistance of O. G. Lloyd of Cincinnati, Ohio, most of the Australian polypores in our possession have been accurately identified. In the present paper we record our various collections. In doing so, we make use of the excellent keys employed by Lloyd in the following works: "Synopsis of the Genus Hexagona" (Ohio, 1910), "Synopsis of the Stipitate PoIyporoids" (Ohio, 1912), "Synopsis of the Section Apus of the Genus Polyporus" (Ohio, 1915) and "Synopsis of the Genus Fomes" (Ohio, 1915). In addition to recording the plants we have handled, we have included as well all the Australian species embraced in these works. Australian mycologists should thus have available a workable scheme for the identification of most of our firmer polypores. Those who have attempted to work out the species from Cooke´s "Handbook of Australian Fungi", will appreciate the value of Lloyd´s work. We deal first with the Stipitate Polypores, then with Fomes, Polyporus (Apus) and Hexagona.
This synonymic list of the flat bugs (Aradidae) ofthe world enumerates 1,798 species in 211 genera. Names of eight fossil species are given in their original combination in modern genera. The list is introduced by brief discussions of habits, food, ecology and distribution. Many taxonomic innovations are included, as follows: Subfamily Chinamyersiinae is divided into two new tribes, Chinamyersiini and Tretocorini; the subfamily Prosympiestinae is divided into two new tribes, Llaimacorini and Prosympiestini. All currently recognized subgenera are raised to generic rank: Aneurillus, Breviscutaneurus, lralunelus, and Paraneurus from Aneurus; Miraradus and Quilnus from Aradus; Lissaptera and Nesiaptera from Acaraptera; Neoproxius and Nesoproxius from Proxius (see list below for new combinations resulting). Three genus-group names are raised from synonymy: Aneurosoma; Burgeonia and Brachyrhynchus. One genus-group name is reduced to synonymy; Zimera as a junior synonym of Brachyrhynchus. The following new species-genus combinations are made, these mostly resulting from elevation of subgenera to generic status or species transfers. In Aneurillus - borneensis, cetratus, cheesmanae, consimilis, doesbergi, foliaceus, glaberrimus, gracilis, jacobsoni, longicollis, papuasicus, pumilus, superbus; in Aneurosoma - dissimile; in Aneurus - septentrionalis; in Aradus - dignatus; in Arbanatus - asiaticus, loriae; in Brachyrhynchus - affinis, amplicollis, andamanensis, angolensis, armigerus, australis, bergrothi, bergrothianus, bhoutanensis, breuiceps, burmensis, confectus, confusus, consimilis, crenatus, dentipes, discrepans, dispar, duboisi, elegans, exarmatus, funebrus, furcatulus, furcatus, germari, gracilicornis, granos us, hospidus, hoberlandti, horridus, hsiaoi, incisus, incognitus, insignis, intermedius, javanensis, kachenensis, kerzhneri, lindemannae, longicornis, longirostris, luberoensis, luzonicus, machadoi, madagascariensis, mauricii, membranaceus, micronesicus, monedulus, mario, ouerlaeti, parallelus, pauper, philippinensis, piliferus, poriaicolus, projectus, quadridentatus, quadrispinosus, rossi, rugosus, scrupulosus, serratus, similis, solomonensis, spinipes, stolidus, subinermis, subtriangulus, sulcatus, sulcicornis, sumatrensis, taiwanicus, teter, thailandicus, triangulus, tristis, urijdaghi; in Breviscutaneurus - breviscutatus, helenae, madagascariensis, medioscutatus; in Burgeonia - burgeon, dilatatus, froidebisei, intermedius, kormileui, madagascariensis, maynei, paruus, schoutedeni, usingeri; in Chiastoplonia - pusio; in lralunellus - aibonitensis, bergi, bispinosus, boliuianus, carioca, costariquensis, flavomaculatus, ftitzi, gallicus, leptocerus, longicornis, marginalis, monrosi, plaumanni, politus, sahlbergi, simulans, subdipterous, tenuis, westwoodi, wygodzinsky; in Miraradus - foliaceus, himalayensis, mirabilis, oeruendetes; in Neoproxius - amazonicus, carioca, costariquensis, gypsatus, incaicus, lindemannae, magdalenae, nicaraguensis, palliatus, panamensis, personatus, peruuianus, schwarzii; in Nesiaptera - denticulata, gibbosa, ouata, rotundata, tuberculata, zimmermani; in Nesoproxius - angulatus, constrictus, gracilis, hexagonalis, malayensis, minutus, punctulatus, vietnamensis, yoshimotoi; in Neuroctenus - ghesqueri; in Oreossa - insignis; in Quilnus - amurensis, breuirostris, discedens, heidemanni, niger, nigrinus, oregonicus, paruicollis, subsimilis, usingeri. Three new species names are proposed: Brachyrhynchus pauper for the preoccupied Mezira modesta Kormilev, 1972; Mezira uicina for the preoccupied Mezira proxima Kormilev, 1982; and Mezira doesburgi for the preoccupied Mezira surinamensis Kormilev, 1974. Five new species-synonymys are made: Aradus centriguttatus as a junior synonym of Aradus similis; Mezira jacobsoni as a junior synonym of Daulocoris cornigerus; Mezira modesta as a junior synonym of Brachyrhynchus membranaceus; Neuroctenus breuicornis as a junior synonym of Neuroctenus ater; Notoplocaptera malaisei as a junior synonym of Zoroaptera malaisei. Four new emendations of gender endings are proposed for the species name "halaszfyi": Artabanus halaszfyae, Chelysosoma halaszfyae, Ctenoneurus halaszfyae, Mezira halaszfyae.
Da die gesamte Arbeit nur einen vorläufigen Überblick über das bearbeitete Gebiet gibt, können nur wenige Punkte hier herausgegriffen werden. Die Artendichte ist in der Kieler Bucht in der Vegetationszone (= Phytal) am größten, es folgt die Sandregion, am geringsten ist sie in der Schlammzone. Die Tiere des Phytals, der Sandregion und der Schlammregion zeigen in ihrer Organisation wesentliche Unterschiede. Im Sand ist die Mikrofauna stark, die Makrofauna gering entwickelt, in der Schlammregion umgekehrt. Die Verteilung der sessilen, der hemisessilen und der haptischen Tiere mit ihren Haftorganen auf die drei Hauptbiotope wird untersucht. Die Sandregion ist durch Fehlen der sessilen Tiere, Armut an hemisessilen, aber großer Reichtum an haptischen Tieren ausgezeichnet. Die haptischen Tiere des Sandes besitzen besonders Haftröhrchen, Haftpapillen und Haftringe als Haftorgane und diese in großer Zahl und weit über den Körper verteilt. Im Phytal erreichen die sessilen Tiere ihre maximale Arten- und Individuenzahl, in der Schlammregion dominieren die hemisessilen Arten. Die Lokomotion durch Wimperbewegung ist in der Sandregion am reichsten entwickelt (Kriechen auf Wimpern), wird im Phytal geringer und tritt in der Schlammregion ganz zurück. Eine Übersicht über die Ernährungstypen ergibt, daß im groben Sand die Diatomeenflora der Sandoberfläche als wichtigste Nahrungsquelle der Mikrofauna zu betrachten ist. Im Phytal existieren drei Nahrungswege: 1. Ein Weg von den Partikeln des freien Wassers über Mikrophagen zu einer Mikrofauna und Makrofauna ohne Einschaltung der Nährstoffe der Pflanzen des Phytals. Diesem Weg gehören im gesamten Phytal über ein Drittel der Arten an, im Extremfalle (tiefe Fucusregion) weitaus die Mehrzahl. 2. Ein Weg von der epiphytischen Mikroflora zu einer Mikro- und Makrofauna. 3. Ein Weg von den Teilen der Großpflanzen (Laminaria, Fucus, Zostera, Delesseria) zu einer Mikrofauna und Makrofauna. Diesem letzten Nahrungsweg gehören auffallend wenige Tierarten an, relativ am größten ist der Anteil in der Seegras- und der Ulvaregion. Eine Gliederung in Biozoenosen mit besonderer Berücksichtigung der Mikrofauna ergibt für das Benthal, 6 Unterbiozoenosen, 4 davon (die Halammohydra-Biozoenose, die Turbanella-hyalina-B., die Arenicola-B. und die Otoplanen-B.) gehören der Sandregion, 2 (Corbula-B. und Laophonte-horrida-B.) gehören der Schlammregion an. Das Phytal zeigt trotz der starken Biotopunterschiede nur geringe qualitative Unterschiede seiner Fauna, jedoch starke Verschiedenheiten in der Artenzahl, die wohl in erster Linie auf den verschiedenen durchschnittlichen Salzgehalt der Biotope zurückzuführen sind. Die maximale Besiedelungsdichte zeigt die tiefe Fucusregion.
The A. A. present in this paper their studies about the Aspergillus spp. found by them as contaminants of Lab. cultures, chiefly. The species studied are the following: A. allocotus n. sp., A. amstelodami, A. awamori varo hominis n. var., A. candidus, A. fischeri, A. flavus, A. heteromorphus n. sp., A. japonicus, A. niger (two strains), A. ochraceus, A. ochraceo-petaliformis n. sp., A. quadrilineatus, A. repens var. ramos a n. var. A. sclerotiorutn, A. sydowii, A. terreus, A. unguis and A. variecolor var. major n. var.
Sobre Bryozoa do Brasil
(1941)
The specimens which form the basis of the following notes and descriptions were received by the writer from Mr. Ch'i Ho, Asistant Entomologist of Fan Memorial Institute of Biology, who collected thern either in Peiping or Eastern Tomb (40.2 N, 117.0 E), Hopei Province. They belong to nineteen species and are included in fifteen genera. Two of the species are believed to be new to science.