Feeding Ecology of Arctic-Nesting Sandpipers During Spring Migration Through the Prairie Pothole Region

ABSTRACT We evaluated food habits of 4 species of spring-migrant calidrid sandpipers in the Prairie Pothole Region (PPR) of North Dakota. Sandpipers foraged in several wetland classes and fed primarily on aquatic dipterans, mostly larvae, and the midge family Chironomidae was the primary food eaten. Larger sandpiper species foraged in deeper water and took larger larvae than did smaller sandpipers. The diverse wetland habitats that migrant shorebirds use in the PPR suggest a landscape-level approach be applied to wetland conservation efforts. We recommend that managers use livestock grazing and other tools, where applicable, to keep shallow, freshwater wetlands from becoming choked with emergent vegetation limiting chironomid production and preventing shorebird use.     

Evidence for Bastesian mimicry in a butterfly-pollinated orchid

Observations in the Cape Province, South Africa, showed that Disa ferruginea (Orchidaceae) is dependent on a single butterfly species— Meneris tulbaghia (Nymphalidae: Satyrinae)—for pollination. The flowers of D. ferruginea contain no food reward and, instead, appear to secure pollinator visits by imitating flowers which are nectar sources for the butterfly. A red-flowered form of D. ferruginea appears to mimic the red nectar-producing flowers of Tritoniopsis triticea (Iridaceae) in the south-western Cape, while an orange-flowered form of D. ferruginea appears to mimic the orange nectar-producing flowers of Kniphofia uvaria (Asphodelaceae) in the Langeberg Mountains. Reflectance spectra of the orchid's flowers closely match those of its putative models. Analysis of foraging movements of the butterfly in a mixed stand of D. ferruginea and T. triticea indicated that it does not discriminate between the nectarless orchid and the nectar-producing model. Populations of D. ferruginea which are sympatric with T. triticea have relatively high levels of pollination and fruit production, compared with populations where the orchid grows alone. Although other studies have reported relatively low fecundity in deceptive orchids, pollination and fruiting success in D. ferruginea compares favourably with a nectar-producing congener, Disa uniflora , which is also pollinated solely by M. tulbaghia.     

Systematics and evolution of the Disa draconis complex (Orchidaceae)

The systematic status of Disa draconis (L.f.) Sw. is revised following extensive field studies of population variation in the Western Cape, South Africa. Principal component and cluster analyses revealed clear distinctions between populations from sandplain, semi-arid and montane environments. Diagnostic characters were found in each of the population clusters indicating the existence of a species complex, rather than a single taxon as in the current taxonomy. We propose, therefore, that the name D. draconis (L.f.) Sw. be restricted to the individuals of the sandplain populations from which the type was collected. We reinstate an earlier name, Disa harveiana Lindl., to describe the montane populations which possess several autapomorphic characters. We also show that the geographical variation in spur length and flowering time within this species can be partitioned into two geographically distinct subspecies: D. harveiana subsp. harveiana and D. harveiana subsp. longicalcarata Johnson & Linder. The populations from the semi-arid Karoo region were recognized as a distinct new species, Disa karooica Johnson & Linder, on the basis of their peculiar petal structure. A cladistic analysis indicated that the three species forming the D. draconis complex form a monophyletic and relatively specialized lineage within Disa sect. Coryphaea. The revised classification also has important conservation implications as D. draconis , previously considered a common species, is now restricted to a few highly threatened populations on the west coast near Cape Town.     

Thermoregulation in pythons. IV Thermoregulation in the Papuan-New Guinean pythons within the genera Python, Liasis and Chondropython

The thermal preference, voluntary maxima, and thermal control were studied in the Papuan-New Guinean pythons Python spilotus, P. boeleni, Liasis albertisii, L. papuanus, L. boa, and Chondropython viridis. Preferred temperature data were similar for all species and mean preferred head temperatures were lower than those for the body. In general preferred and voluntary means were higher for the Papuan-New Guinean pythons than those found for Australian species and likely reflect adaptation to hotter tropical environments.     

Host feeding preference of Phlebotomus guggisbergi,a vector of Leishmania tropica in Kenya

Abstract. Recently the sandfly Phlebotomus guggisbergi was found to be a vector of Leishmania tropica causing cutaneous leishmaniasis in the Laikipia focus, Kenya, but extensive searches have shed no light on the identity of the rural reservoir host(s). In order to discover more about the biology of the vector, a host feeding preference study was conducted on wild sandflies in their natural cave environment over a 6-month period. Solid state Army miniature (SSAM) traps, without light bulb, were suspended over cages with potential hosts or an empty cage control. The animals tested included sheep, goat, dog, cat, hamster, rabbit, giant rat (Cricetomys gambianus), crested rat (Lophiomys imhausi) and rock hyrax (Procavia capensis), all of which (except hamsters) are normally found in the vicinity of the study site. Sandfly collections from traps baited with goat, sheep, cat, dog, rabbit, or wild rodent species were significantly higher than the control, whereas trap collections with hamster and rock hyrax were not significantly different from the control. Numbers of sandflies collected from the goat, sheep and cat were significantly greater than from the rabbit and rodents. The sex ratio also varied between collections: larger animals attracted a higher proportion of female P.guggisbergi than did the smaller animals (P>0.05). Therefore greater emphasis should be placed on surveying larger animals to assess their status as reservoir hosts for L.tropica in Kenya.     

Identification of phlebotomine sandfly bloodmeals from Baringo district, Kenya, by direct enzyme-linked immunosorbent assay (ELISA)

Direct enzyme-linked immunosorbent assay (ELISA) was used to identify the sources of bloodmeals in phlebotomine sandflies from Baringo District, Rift Valley Province, Kenya. Some bloodmeals had been stored for over 4 years before being analysed. Among 356 sandflies identified, 62.9% were Phlebotomus martini, 14.8% Sergentomyia antennatus, 10% S.schwetzi, 6% S.clydei, 1.9% S.adleri, 1.6% P.duboscqi, 1.4% S.africanus and 0.8% S.bedfordi. Out of 224 P.martini bloodmeals, host source was identified for 69. The order of host preference for P.martini was: goat 28.5%, rabbit 22.7%, human 8.9% and others 8.9%. Evidence of mixed feeding was shown by four species comprising sixteen specimens, twelve of which were P.martini. The most effective methods for trapping bloodfed P. martini were sticky paper traps in termite hills, followed by light-traps. Of the 224 P.martini trapped, 58.9% were collected with traps in termite hills, and 22.7% with light traps. Roles of the three most popular hosts for P.martini should be investigated to ascertain whether they act as reservoirs in the transmission of Leishmania donovani causing visceral leishmaniasis in Kenya.