Print ISSN: 0022-2585

Current: Jul 2009 : Volume 46 Issue 4

BioOne Member Since: 2001

Frequency: Bimonthly

Impact Factor: 1.967

2008 ISI Journal Citation Reports® Rankings:

7/72 - Entomology

11/134 - Veterinary Sciences

Eigenfactor™: Journal of Medical Entomology

Title Tools

Most Read Articles (last 30 Days)

Initial Study of Arthropod Succession on Pig Carrion in a Central European Urban Habitat

Behavioral Responses of the Bed Bug to Insecticide Residues

Evaluation of Significance of Bacteria in Larval Development of Cochliomyia macellaria (Diptera: Calliphoridae)

Larval Competition of Chrysomya megacephala and Chrysomya rufifacies (Diptera: Calliphoridae): Behavior and Ecological Studies of Two Blow Fly Species of Forensic Significance

Influence of Temperature on Immature Development, Survival, Longevity, Fecundity, and Gonotrophic Cycles of Aedes albopictus, Vector of Chikungunya and Dengue in the Indian Ocean

Sign up for e-alerts

RSS Feeds

Home / All Titles / Journal of Medical Entomology / March 2007 / pg(s) 336-344

Journal of Medical Entomology

Published by: Entomological Society of America

« previous article : next article »

Journal of Medical Entomology 44(2):336-344. 2007
doi: 10.1603/0022-2585(2007)44[336:MSSAPF]2.0.CO;2

Mosquito Species Succession and Physicochemical Factors Affecting Their Abundance in Rice Fields in Mwea, Kenya

Ephantus J. Muturi¹^,², Joseph Mwangangi³^,⁴, Josephat Shililu³^,⁵, Simon Muriu², Benjamin Jacob¹, Ephantus Kabiru⁶, Weidong Gu¹, Charles Mbogo⁴, John Githure³, and Robert Novak¹

¹Medical Entomology Laboratory, Centre for Ecological Entomology, Illinois Natural History Survey, 1816 South Oak St., Champaign, IL 61820.

²Corresponding author, e-mail: emuturi2@uiuc.edu.

³Human Health Division, International Centre of Insect Physiology and Ecology, Nairobi, Kenya.

⁴Centre for Geographic Medicine Research-Coast, Kenya Medical Research Institute, Kilifi, Kenya.

⁵Department of Zoology, Jomo Kenyatta University of Agriculture and Technology, Nairobi, Kenya.

⁶Department of Pathology, Kenyatta University, Nairobi, Kenya.

Abstract

The succession of mosquito species and abiotic factors affecting their distribution and abundance in rice (Oryza spp.) fields was investigated over a 16-wk rice growing cycle covering the period between January and May 2006. Fifteen experimental rice plots were sampled for mosquito larvae and characterized based on rice height, number of tillers, floating vegetation cover, water depth, water temperature, turbidity, salinity, pH, dissolved oxygen, total dissolved solids, and conductivity. Microscopic identification of 3,025 larvae yielded nine mosquito species predominated by Anopheles arabiensis Patton (45.0%), Culex quinquefasciatus Say (35.8%), Anopheles pharoensis Theobald (9.0%) and Ficalbia splendens Theobald (7.1%). Other species, including Anopheles rufipes Gough, Anopheles coustani Laveran, Anonopheles maculipalpis Giles, Culex annulioris Theobald, and Culex poicilipes Theobald made up 3.1% of the total collection. Anopheles gambiae s.l., Cx. quinquefasciatus, and An. pharoensis occurred throughout the cycle, but they were more abundant up to 4 wk posttransplanting with peaks after fertilizer application. As rice plants became established, three groups of mosquitoes were recognized: the first groups included An. rufipes, Fl. splendens, and Cx. annulioris, which occurred throughout much of the second half of the rice cycle, whereas the second group included Cx. poicilipes, which was found in the middle of the rice cycle. An. coustani and An. maculipalpis formed the third group occurring toward the end of the cycle. Dissolved oxygen, number of tillers, and rice height were negatively associated with the abundance of An. arabiensis and Cx. quinquefasciatus larvae. In addition, Cx. quinquefasciatus also was associated with water depth (−ve) and turbidity (+ve). Abundance of An. pharoensis larvae was significantly associated with water temperature (+ve), the number of tillers (−ve), and rice height (−ve), whereas Fl. splendens was significantly associated with the number of tillers (+ve). The results demonstrate a complex nature of the interactions between some of the factors in the ecosystem and mosquito species abundance and calls for time-dependent and species-specific mosquito control operations.

Received: July 1, 2006; Accepted: November 6, 2006

Keywords: rice, mosquitoes, succession, physicochemical, Kenya

Asimeng, E.

and M. Mutinga

. Effect of rice husbandry on mosquito breeding at Mwea Rice Irrigation Scheme with reference to biocontrol strategies. J. Am. Mosq. Control Assoc. 9:1993. 17–22. PubMed, CSA

Beehler, J. W.

and M. S. Mulla

. Effects of organic encroachment on temporal distribution and abundance of culicine egg rafts. J. Am. Mosq. Control Assoc. 11:1995. 167–117. PubMed, CSA

Chandler, J. A.

and R. B. Highton

. The succession of mosquito species (Diptera, Culicidae) in rice fields in the Kisumu area of Kenya, and their possible control. Bull. Entomol. Res. 65:1975. 295–302. CSA

Chandler, J.

and R. Highton

. Breeding of Anopheles gambiae Giles (Diptera: Culicidae) in rice fields in the Kisumu area of Kenya. J. Med. Entomol. 13:1976. 211–115. PubMed

Diallo, M.

, L. Lochouarn

, L. Ba

, K. Sall

, A. Modo

, L. Girault

, and C. Mathiot

. First isolation of the Rift Valley fever virus from Culex poicilipes (Diptera: Culicidae) in nature. Am. J. Trop. Med. Hyg. 62:2000. 702–704. PubMed, CSA

Diallo, M.

, P. Nabeth

, K. Ba

, A. A. Sall

, Y. Ba

, M. Mondo

, L. Girault

, M. O. Abdalahi

, and C. Mathiot

. Mosquito vectors of the 1998–1999 outbreak of Rift Valley Fever and other arboviruses (Bagaza, Sanar, Wesselsbron and West Nile) in Mauritania and Senegal. Med. Vet. Entomol. 19:2005. 119–126. CrossRef, PubMed

Ghebreyesus, T. A.

, M. Haile

, K. H. Witten

, A. Getachew

, A. M. Yohannes

, M. Yohannes

, H. D. Teklehaimanot

, S. W. Lindsay

, and P. Byass

. Incidence of malaria among children living near dams in northern Ethiopia: community based incidence survey. Br. Med. J. 319:1999. 663–666. PubMed, CSA

Gillies, M. T.

and M. Coetzee

. A supplement to the Anophelinae of Africa south of the Sahara (Afro-tropical region). Johannesberg Public South Afr. Inst. Med. Res. 55:1987. 1–143.

Gimnig, J. E.

, M. Ombok

, K. Luna

, and W. A. Hawley

. Characteristics of larval anopheline (Diptera: Culicidae) habitats in Western Kenya. J. Med. Entomol. 38:2001. 282–288. Abstract, PubMed, CSA

Gordon, S.

, R. Tammariello

, K. Lincithicum

, D. Dohm

, J. Digoutte

, and M. Calvo-Wilson

. Arbovirus isolations from mosquitoes collected during 1988 in the Senegal River basin. Am. J. Trop. Med. Hyg. 47:1992. 742–748. PubMed, CSA

Grillet, M.

Factors associated with distribution of Anopheles aquasalis and Anopheles oswaldoi (Diptera: Culicidae) in a malarious area, northeastern Venezuela. J. Med. Entomol. 37:2000. 231–238. Abstract, PubMed, CSA

Hammer, M. J.

Water and waste water technology. 1986. Wiley. New York.

Hopkins, G.

Mosquitoes of the Ethiopian region: larval bionomics of mosquitoes and taxonomy of culicine larvae. 1952. Adlard and Son Ltd.. London, United Kingdom.

Ijumba, J.

, R. Mwangi

, and J. C. Beier

. Malaria transmission potential of Anopheles mosquitoes in the Mwea-Tebere irrigation scheme, Kenya. Med. Vet. Entomol. 4:1990. 425–432. CrossRef, PubMed, CSA

Klinkenberg, E.

, W. Takken

, F. Huibers

, and Y. Toure

. The phenology of malaria mosquitoes in irrigated rice fields in Mali. Acta Trop. 85:2003. 71–82. CrossRef, PubMed

Logan, T.

, K. Lincithicum

, P. Thande

, J. Wagateh

, and C. Roberts

. Mosquito species collected from a marsh in western Kenya during the long rains. J. Am. Mosq. Control Assoc. 7:1991. 395–399. PubMed, CSA

Mawuli, D.

, S. K. Dunyo

, C. K. Ahorlu

, W. Z. Coker

, M. A. Appawu

, E. M. Pedersen

, and P. E. Simonsen

. Bancroftian filariasis in an irrigated project community in southern Ghana. Trop. Med. Int. Health 4:1999. 13–18. CrossRef, PubMed, CSA

Miller, B. R.

, R. S. Nasci

, S. M. Godsey

, M. H. Savage

, J. J. Lutwama

, R. S. Lanciotti

, and P. J. Clarence

. First field evidence for natural vertical transmission of West Nile virus in Culex univittatus complex mosquitoes from Rift Valley province, Am. J. Trop. Med. Hyg. 62:2000. 240–246.

Minakawa, N.

, P. Seda

, and Y. Guiyun

. Influence of host and larval habitat distribution on the abundance of African malaria vectors in western Kenya. Am. J. Trop. Med. Hyg. 67:2002. 32–38. PubMed, CSA

Mogi, M.

Population studies on mosquitoes in the rice field area of Nagasaki, Japan, especially on Culex tritaeniorhynchus. Trop. Med. 20:1978. 173–263.

Mutero, C.

, C. Kabutha

, V. Kimani

, L. Kabuage

, G. Gitau

, J. Ssennyonga

, J. Githure

, L. Muthami

, A. Kaida

, L. Musyoka

, et al. A transdisciplinary perspective on the links between malaria and agroecosystems in Kenya. Acta Trop. 89:2004a. 171–186. CrossRef, PubMed

Mutero, C.

, P. Ng‘ang’a

, P. Wekoyela

, J. Githure

, and F. Konradsen

. Ammonium sulphate fertiliser increases larval populations of Anopheles arabiensis and culicine mosquitoes in rice fields. Acta Trop. 89:2004b. 187–192. CrossRef, PubMed

Muturi, J. E.

, J. Shililu

, J. Benjamin

, W. Gu

, J. Githure

, and R. Novak

. Mosquito species diversity and abundance in relation to land use in a riceland agroecosystem in Mwea, Kenya. J. Vector Ecol. 31:2006. 129–137. Abstract, PubMed

Piyaratne, M. K.

, M. P. Amerasinghe

, P. H. Amerasinghe

, and F. Konradsen

. Physico-chemical characteristics of Anopheles culifacies and Anopheles varuna breeding water in a dry zone stream in Sri Lanka. J. Vector Borne Dis. 42:2005. 61–67. PubMed

Rajendran, R.

and R. Reuben

. Evaluation of water fern Azolla microphylla for mosquito population management in the rice land agro-ecosystem of south India. Med. Vet. Entomol. 5:1991. 299–310. CrossRef, PubMed

Ramachandra Rao, T.

The Anophelines of India. revised edition.1984. ICMR. New Delhi, India.

Scott, J. A.

, W. G. Brogdon

, and F. H. Collins

. Identification of single specimens of the Anopheles gambiae complex by the polymerase chain reaction. Am. J. Trop. Med. Hyg. 49:1993. 520–529. PubMed, CSA

Shililu, J.

, G. Tewolde

, S. Fessahaye

, S. Mengistu

, H. Fekadu

, Z. Mehari

, G. Asmelash

, D. Sintasath

, G. Bretas

, C. Mbogo

, et al. Larval habitat diversity and ecology of anopheline larvae in Eritrea. J. Med. Entomol. 40:2003. 921–929. Abstract, PubMed

Snow, W.

Mosquito production and species succession from an area of irrigated rice fields in The Gambia, West Africa. J. Trop. Med. Hyg. 86:1983. 237–45. CrossRef, PubMed

Sunish, I. P.

, D. Raghunatha Rao

, and A. Gajanana

. Nitrogenous fertilizers, neem and vectors of Japanese encephalitis virus. Curr. Sci. 75:1998. 1107.

Sunish, I. P.

and R. Reuben

. Factors influencing the abundance of Japanese encephalitis vectors in ricefields in India. I. Biotic. Med. Vet. Entomol. 15:2001. 381–392. CrossRef, PubMed, CSA

Wood, B. L.

, L. R. Beck

, R. K. Washino

, K. A. Hibbard

, and J. S. Salute

. Estimating high mosquito-producing rice fields using spectral and spatial data. Int. J. Remote Sens. 13:1992. 2813–2826. CrossRef, CSA

Wood, B.

, R. Washino

, L. Beck

, K. Hibbard

, M. Pitcairn

, D. Roberts

, E. Rejmankova

, J. Paris

, C. Hacker

, J. Salute

, et al. Distinguishing high and low anopheline-producing rice fields using remote-sensing and GIS technologies. Prev. Vet. Med. 11:1991. 277–288. CrossRef

Cited by

Ephantus J. Muturi, Joseph M. Mwangangi, Benjamin G. Jacob, Josephat I. Shililu, Charles M. Mbogo, John I. Githure, Robert J. Novak. (2009) Spatiotemporal dynamics of immature culicines (subfamily Culicinae) and their larval habitats in Mwea Rice Scheme, Kenya. Parasitology Research 104:4, 851-859
Online publication date: 1-Apr-2009.
CrossRef

Ephantus J. Muturi, Josephat I. Shililu, Benjamin G. Jacob, Joseph M. Mwangangi, Charles M. Mbogo, John I. Githure, Robert J. Novak. (2008) Diversity of Riceland Mosquitoes and Factors Affecting Their Occurrence and Distribution in Mwea, Kenya. Journal of the American Mosquito Control Association 24:3, 349-358
Online publication date: 1-Sep-2008.

Abstract & References : Full Text : PDF (534 KB)

Benjamin G Jacob, Daniel A Griffith, James T Gunter, Ephantus J Muturi, Erick X Caamano, Josephat I Shililu, John I Githure, James L Regens, Robert J Novak. (2008) A Spatial Filtering Specification for an Auto-negative Binomial Model of Anopheles arabiensis Aquatic Habitats. Transactions in GIS 12:4, 515-539
Online publication date: 1-Aug-2008.
CrossRef

Benjamin G Jacob, Daniel A Griffith, Robert J Novak. (2008) Decomposing Malaria Mosquito Aquatic Habitat Data into Spatial Autocorrelation Eigenvectors in a SAS/GIS ^® Module. Transactions in GIS 12:3, 341-364
Online publication date: 1-Jul-2008.
CrossRef

Joseph M. Mwangangi, Ephantus J. Muturi, Josephat Shililu, Simon M. Muriu, Benjamin Jacob, Ephantus W. Kabiru, Charles M. Mbogo, John Githure, Robert Novak. (2008) Contribution of different aquatic habitats to adult Anopheles arabiensis and Culex quinquefasciatus (Diptera: Culicidae) production in a rice agroecosystem in Mwea, Kenya. Journal of Vector Ecology 33:1, 129-138
Online publication date: 1-Jun-2008.

Abstract & References : Full Text : PDF (235 KB)

Ephantus J. Muturi, Joseph Mwangangi, Josephat Shililu, Benjamin G. Jacob, Charles Mbogo, John Githure, Robert J. Novak. (2008) Environmental factors associated with the distribution of Anopheles arabiensis and Culex quinquefasciatus in a rice agro-ecosystem in Mwea, Kenya. Journal of Vector Ecology 33:1, 56-63
Online publication date: 1-Jun-2008.

Abstract & References : Full Text : PDF (148 KB)

Article Views

» Abstract & References

Full Text

PDF (316 KB)

Article Tools

Disable search highlighting

Add to Favorites

Download to Citation Manager

Alert me when this article is cited: Email | RSS

Citing Articles

Google Scholar