The aggregated nature of helminth parasite populations has led to the suggestion that selectively treating heavily infected hosts can efficiently reduce parasite abundance and morbidity within a host population. Moreover, it has been postulated that a selective treatment protocol might have long-term effects on parasite transmission by disrupting the stability attributed to aggregated parasite population distributions by theoretical models. Long-term investigation has demonstrated year-to-year consistency in the population dynamics of Halipegus occidualis in green frogs from Charlie's Pond, North Carolina. In 1996, removal of all but 1 worm from each frog with ≥15 worms reduced the estimated component worm population by 45%, thereby decreasing mean intensity and aggregation (variance-to-mean ratio) of H. occidualis in the frogs by 85% and 63%, respectively. The following year, mean intensity, aggregation, and host colonization trends returned to pretreatment levels, indicating no effect of worm removal and demonstrating the stability of this host–parasite system. Although this result might be attributable to inefficient treatment or the presence of infection reservoirs, it is suggested that parasite population stability in this system might be governed by prevalence rather than intensity of adult worms. Therefore, repeated selective treatment might effectively modify intensity-dependent morbidity in similar host–parasite systems but should not affect further parasite transmission.
Skip Nav Destination
Article navigation
April 2000
ECOLOGY-EPIDEMIOLOGY|
April 01 2000
RELATIONSHIP BETWEEN STRUCTURE AND STABILITY OF A HALIPEGUS OCCIDUALIS COMPONENT POPULATION IN GREEN FROGS: A TEST OF SELECTIVE TREATMENT
Derek A. Zelmer;
Derek A. Zelmer
Department of Biology, Wake Forest University, Winston–Salem, North Carolina 27109
*Current address: Division of Biological Sciences, Emporia State University, Emporia, Kansas 66801
Search for other works by this author on:
Gerald W. Esch
Gerald W. Esch
Department of Biology, Wake Forest University, Winston–Salem, North Carolina 27109
Search for other works by this author on:
J Parasitol (2000) 86 (2): 233–240.
Citation
Derek A. Zelmer, Gerald W. Esch; RELATIONSHIP BETWEEN STRUCTURE AND STABILITY OF A HALIPEGUS OCCIDUALIS COMPONENT POPULATION IN GREEN FROGS: A TEST OF SELECTIVE TREATMENT. J Parasitol 1 April 2000; 86 (2): 233–240. doi: https://doi.org/10.1645/0022-3395(2000)086[0233:RBSASO]2.0.CO;2
Download citation file:
Sign in
Don't already have an account? Register
Client Account
You could not be signed in. Please check your email address / username and password and try again.
Could not validate captcha. Please try again.
Sign in via your Institution
Sign in via your InstitutionCiting articles via
MYXOZOANS (CNIDARIA: MYXOSPOREA: MYXIDIIDAE) IDENTIFIED FROM THE GALLBLADDER OF FRECKLED MADTOM, NOTURUS NOCTURNUS (SILURIFORMES: ICTALURIDAE), FROM THE OUACHITA RIVER DRAINAGE OF SOUTHERN ARKANSAS
Chris T. McAllister, Donald G. Cloutman, Eric M. Leis, Henry W. Robison
COSPECIATION PATTERNS OF TWO GROUPS OF CHEWING LICE (INSECTA: PHTHIRAPTERA: ISCHNOCERA AND AMBLYCERA) INFESTING ASIAN SONGBIRDS (AVES: PASSERIFORMES)
Alexandra A. Grossi, Chunpo Tian, Lujia Lei, Fasheng Zou, Daniel R. Gustafsson
SPECIES OF HEMIRHAMPHICULUS (MONOGENOIDEA: DACTYLOYRIDAE) INFECTING THE GILL LAMELLAE OF SOME BELONIFORM FISHES IN WATERS OF THE GULF OF MEXICO OFF FLORIDA, WITH DESCRIPTIONS OF FIVE NEW SPECIES AND COMMENTS ON THE DACTYLOGYRID GENERA HAVING SPECIES INFECTING BELONIFORM FISHES
Delane C. Kritsky, Micah D. Bakenhaster
HEPATOZOON RUFI N. SP. (APICOMPLEXA: HEPATOZOIDAE) OF BOBCATS (LYNX RUFUS) FROM MISSISSIPPI
J. P. Dubey, Aditya Gupta, Larissa S. de Araujo, Oliver C. H. Kwok, B. M. Rosenthal
PHYLOGENY AND SYSTEMATICS OF CYATHOCOTYLID DIGENEANS (DIGENEA: DIPLOSTOMOIDEA) PARASITIZING SNAKES WITH DESCRIPTION OF THREE NEW SPECIES OF GOGATEA FROM AUSTRALIA AND VIETNAM
Tyler J. Achatz, Zoe S. Von Holten, Tran Thi Binh, Vasyl V. Tkach