D. Westphal scite author profile

Cercariae of the trematode Cryptocotyle concavum, which encyst in skin and/or kidney of sticklebacks and gobies, were studied in the Schlei Fjord (western Baltic Sea). Mean incidence of dermal cysts was 48 % in Gasterosteus aculeatus and 37 % in Pungitius pungitius. No cysts were found in the kidneys of sticklebacks. While 97 % of Pomatoschistus microps had encysted metacercariae in the kidneys, only 2 % had cysts in the skin. Pomatoschistus minutus, however, showed hardly any cyst infestation of either skin or kidney. In P. microps the intensity of infestation by metacercariae was frequently more than 50 cysts; in contrast, sticklebacks rarely exhibited more than 5 dermal cysts. Infested fish were larger than 10 mm in total length, the incidence rate increasing with growth. Parasitic infestation depends on ambient salinity: C. concavum was not found at salinities below 4 %o. In contrast to the high incidence in fish, the first hosts -the snails Hydrobia stagnalis and H. neglecta -showed remarkably low infection rates (3 to 5 %). The findings reported are related to the distribution of C. concavum, the mode of life of infested fish, the feeding habits of the final hosts and the infestation of P. micropsby other parasites. Evidently, P. microps represents an optimal second host for C. concavum.

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The Interaction of Pink Bollworm (Lepidoptera: Gelichiidae), Cotton, and Weather: A Detailed Model

Gutiérrez¹,

Butler²,

Wang³

et al. 1977

Can Entomol

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The pink bollworm (Pectinophora gossypiella (Saunders)) is an important pest of cotton in the desert areas of the United States and Mexico, as well as other areas of the world. The literature on this pest is quite extensive, and hence, beyond the scope of this paper. Work by McLaughlin (1974), Lukefahr (1962), Watson et al. (1973), Slosser and Watson (1972), Adkisson et al. (1963), and Westphal et al. (unpublished) have been extremely useful in providing a satisfactory data base for formulating a mathematical description of the biology of this pest species (i.e., a time varying life table model—Hughes (1963), see Southwood (1966)).

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Some interactions of the pink bollworm and cotton fruiting structures

Westphal¹,

Gutiérrez²,

Butler³

1979

Hilg

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Primate landscape genetics: A review and practical guide

Westphal

Mancini

Baden

2021

Evolutionary Anthropology

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Landscape genetics is an emerging field that integrates population genetics, landscape ecology, and spatial statistics to investigate how geographical and environmental features and evolutionary processes such as gene flow, genetic drift, and selection structure genetic variation at both the population and individual levels, with implications for ecology, evolution, and conservation biology. Despite being particularly well suited for primatologists, this method is currently underutilized. Here, we synthesize the current state of research on landscape genetics in primates. We begin by outlining how landscape genetics has been used to disentangle the drivers of diversity, followed by a review of how landscape genetic methods have been applied to primates. This is followed by a section highlighting special considerations when applying the methods to primates, and a practical guide to facilitate further landscape genetics studies using both existing and de novo datasets. We conclude by exploring future avenues of inquiry that could be facilitated by recent developments as well as underdeveloped applications of landscape genetics to primates.

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D. Westphal

Small-sized euryhaline fish as intermediate hosts of the digenetic trematodeCryptocotyle concavum

The Interaction of Pink Bollworm (Lepidoptera: Gelichiidae), Cotton, and Weather: A Detailed Model

Some interactions of the pink bollworm and cotton fruiting structures

Primate landscape genetics: A review and practical guide

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