DETERMINANTS OF MOSQUITO BORNE DISEASE: LANDSCAPE, LARVAL, AND EGG-LAYING BIOLOGY OF MOSQUITOES IN OKLAHOMA

• Sponsoring Institution: National Institute of Food and Agriculture
• Project Status: TERMINATED
• Funding Source: HATCH
• Reporting Frequency: Annual
• Accession No.: 0216795
• Project No.: OKL02707
• Project Start Date: Jan 1, 2009
• Project End Date: Sep 30, 2013

Project Director
Reiskind, M.

Recipient Organization
OKLAHOMA STATE UNIVERSITY
(N/A)
STILLWATER,OK 74078

Performing Department
Entomology And Plant Pathology

Non Technical Summary
Mosquito-borne diseases are some of the most pressing problems facing public health today, both in the United States and abroad. Various approaches exist to limit the impact of these diseases on human populations. Historically, understanding the ecology of specific vectors of disease has proven to be the most effective means of controlling epidemics. In this proposal, I will examine the effects of land use in human dominated landscapes on mosquito populations. I will also explore the connections between larval habitat quality and egg-laying behavior. These studies will include a combination of laboratory experiments, field surveys and field experiments. Determining the distribution of mosquitoes in the landscape will assist with effective application of targeted control methodologies. As egg-laying is the activity that immediately precedes disease transmission, understanding how female mosquitoes choose where to lay eggs has tremendous potential as a target for the elimination of disease.

Animal Health Component

(N/A)

Research Effort Categories

Basic

(N/A)

Applied

(N/A)

Developmental

(N/A)

Classification

Knowledge Area (KA)	Subject of Investigation (SOI)	Field of Science (FOS)	Percent
721	3110	1130	50%
722	3110	1170	50%

Knowledge Area
722 - Zoonotic Diseases and Parasites Affecting Humans; 721 - Insects and Other Pests Affecting Humans;

Subject Of Investigation
3110 - Insects;

Field Of Science
1170 - Epidemiology; 1130 - Entomology and acarology;

Keywords

west nile virus

dengue fever

chikungunya fever

landscape ecology

competition

larval environment

aquatic environments

container mosquitoes

aedes aegypti

aedes albopictus

culex quinquefasciatus

invasive species

leaf litter

oviposition

remote sensing

Goals / Objectives
1.Document landscape level pattern of important mosquito disease vectors (of WNV and DENV) with regards to an urban to rural gradient and test hypotheses of the underlying, abiotic mechanisms enforcing those patterns in a subtropical (Palm Beach County, Florida) and temperate (Tulsa, OK) location in the southern United States. 2.Explore the connections between oviposition behavior and larval performance in Culex and Aedes mosquitoes, with a focus on Culex quinquefasciatus, Ae. albopictus and Ae. aegypti in regards to resource diversity, resource quality, and abiotic factors. 3.Examine the outcomes of larval competition between mosquito species (Ae. albopictus and Ae. aegypti; Ae. albopictus and Cx. quinquefasciatus) as a function of resource quality, quantity and diversity.

Project Methods
To address the three objectives outlined in this study, a variety of ecological methods will be employed. To answer objective 1, a survey of mosquito populations will be conducted over replicated urban-rural transects in Tulsa County, OK and Palm Beach County, FL. Surveys will use a variety of trapping methodologies to capture a diversity of disease carrying mosquitoes. Data will be collected using satellite images on land usage. These data will be analyzed using a myriad of sophisticated, multivariate techniques to relate landscape features and mosquito diversity and abundance. Experiments to address objective 2 will be conducted in the laboratory at Oklahoma State University. In general, these studies will examine competition and oviposition in larval habitats with a variety of leaf inputs (representing a diversity of habitat quality). The results of these experiments will make explicit connections between larval performance and adult oviposition behavior. Objective 3 will be addressed with a combination of laboratory and field experiments at Oklahoma State University and surrounding areas. Experiments will examine how a diversity of resources influences larval competition between mosquitoes of varying ecological similarity. Experiments from both objectives 2 and 3 will be analyzed with appropriate statistical approaches.

Progress 01/01/09 to 09/30/13

Outputs
Target Audience: The project reported here primarily targets the research community in studies of mosquito biology. However, I worked with the state epidemiologist in Oklohoma to provide surveillance for West Nile virus from 2008-2011, thus helping all citizens in the state of Oklahoma. Changes/Problems: Nothing Reported What opportunities for training and professional development has the project provided? One of the studies examined how larval competition impacts adult survival, for which it was awarded "Best Paper in Medical and Veterinary Entomology, 2009-2010" from the Royal Entomological Society. One paper focused on the response of individuals (without competition) to temperature and food. I have also been part of three articles that have made specific connections between larval ecology and vector competence, thus making a direct connection from the ecological studies and risk of disease. These studies increased our understanding of the importance of the larval state in determining the potential for disease transmission of dengue, and also the implications of alteration of the larval environment of epidemiology of these diseases. I have been part of three studies that have examined questions of vector competence for emerging pathogens. These studies represent the first work with the emerging arbovirus chikungunya in Florida mosquitoes and had implications for how competence studies are conducted. A final study on this subject examined the deleterious effects of infection on the vector, an important consideration in studies modeling disease. I have been part of two studies that examined the prevalence of parasites in wild canids. These studies came out of a fruitful collaboration between me, my graduate student, Ms. Kelsey Paras, and several faculty in the School of Veterinary Medicine at Oklahoma State University. The first study examined the distribution of Trichinella spp. in coyotes, while the second focused on the mosquito-borne dog heartworm parasite, Dirofilaria immitis. I have been part of the one study examining landscape patterns ofmosquitoes. Finally, I have been part of two studies that specificaly focused on adult behavior. The first represents one of a very small number of studies examining predation on adult mosquitoes, and one of only three that I know of looking at flying predators (in this case, a bat). The second study examines oviposition behavior in response to variation in container physical parameters for Aedes albopictus. How have the results been disseminated to communities of interest? I have interacted with the state of Oklahoma Department of Public Health and the Tulsa County Health Department by providing mosquito surveillance for West Nile virus and expertise in mosquito identification. This included a full day short-course on mosquito identification given to the Tulsa Health Department. These activities were primarily during the spring and summer of 2008-2011. In addition, I have given 8 interviews with the popular local and national press involving general questions about mosquito biology. What do you plan to do during the next reporting period to accomplish the goals? Nothing Reported

Impacts
What was accomplished under these goals? Several areas of mosquito biology as it related to disease transmission: larval ecology, connections between larval ecology and disease transmission, vector competence of mosquitoes for arboviruses, parasitology, landscape ecology of mosquitoes, and adult behavior.

Publications

• Type: Journal Articles Status: Published Year Published: 2009 Citation: Reiskind, M.H. and Lounibos, L.P. 2009. Effects of intraspecific larval competition on adult longevity in the mosquitoes Aedes aegypti and Aedes albopictus. Medical and Veterinary Entomology 23: 62-68. Awarded best paper in Medical and Veterinary Entomology, 2009-2010, Royal Entomological Society.
• Type: Journal Articles Status: Published Year Published: 2010 Citation: Reiskind, M.H., Zarrabi, A.A., and Lounibos, L.P. 2010. Invasive leaf resources alleviate density dependence in the invasive mosquito, Aedes albopictus. Biological Invasions 12 (7): 2319-2328
• Type: Journal Articles Status: Published Year Published: 2011 Citation: Reiskind, M.H. and Zarrabi, A.A. 2011. The importance of an invasive tree fruit as a resource for mosquito larvae. Journal of Vector Ecology 36 (1): 197-203.
• Type: Journal Articles Status: Published Year Published: 2012 Citation: Reiskind, M.H., A.A. Zarrabi and L.P. Lounibos. 2012 Effects of combination of leaf resorces on competition in container mosquito larvae. Bulletin of Entomological Research, 102, (4): 424-434
• Type: Journal Articles Status: Published Year Published: 2012 Citation: Reiskind, M.H. and A.A. Zarrabi. 2012. Is bigger really bigger? Differential Responses to Temperature in Measures of Body Size of the Mosquito, Aedes albopictus. Journal of Insect Physiology, 58 (7): 911-917.
• Type: Journal Articles Status: Published Year Published: 2010 Citation: Westbrook, C.J., Reiskind, M.H., Green, K., and Lounibos, L.P. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus to chikungunya virus. Vector-borne and Zoonotic Diseases 10 (3): 241-247.
• Type: Journal Articles Status: Published Year Published: 2009 Citation: Pesko, K., Westbrook, C.J., Lounibos, L.P., Mores, C.N. and Reiskind, M.H. 2009. Effects of infectious virus dose and blood meal delivery method on susceptibility of Aedes aegypti and Aedes albopictus to chikungunya virus. Journal of Medical Entomology 46(2): 395-399
• Type: Journal Articles Status: Published Year Published: 2010 Citation: Reiskind, M.H., Westbrook, C.J. and Lounibos, L.P. 2010. Exposure to chikungunya virus and adult longevity in Aedes aegypti (L.) and Aedes albopictus (Skuse). Journal of Vector Ecology 35 (1): 61-68.
• Type: Journal Articles Status: Published Year Published: 2009 Citation: Reiskind, M.H., Green, K.E., and Lounibos, L.P. 2009. Leaf species composition and identity affect performance and oviposition choice of two container mosquito species. Ecological Entomology 34: 447-456 .
• Type: Journal Articles Status: Published Year Published: 2011 Citation: Reichard, M.V., K.E. Tiernam, K.L. Paras, M. Interisano, M.H. Reiskind, R.J. Panciera, and E. Pozio. 2011. Detection of Trichinella murrelli in coyotes (Canis latrans) from Oklahoma and North Texas Parasitology 182: 368-371
• Type: Journal Articles Status: Published Year Published: 2012 Citation: K.L. Paras, S.e. Little, M.V. Reichard, M.H. Reiskind. 2012. Detection of Dirofilaria immitis and Ehrlichia sp. in coyotes, Canis latrans, from rural Oklahoma and Texas. Vector-Borne and Zoonotic Disease. 12 (7): 619-621.
• Type: Journal Articles Status: Published Year Published: 2010 Citation: Lounibos, L.P., O'Meara, G.F., Juliano, S.A., Nishimura, N., Escher, R.L., Reiskind, M.H., Cutwa, M., and Greene, K. 2010. Differential survivorship of invasive mosquito species in South Florida Cemeteries: do site- specific microclimates explain patterns of coexistence and exclusion? Annals of the Entomological Society of America 103 (5): 757-770.
• Type: Journal Articles Status: Published Year Published: 2009 Citation: Reiskind, M.H. and Wund, MA. 2009. Experimental assessment of the impact of the northern long-eared bat on ovipositing Culex (Diptera: Culicidae) mosquitoes. Journal of Medical Entomology 46 (5): 1037-1044
• Type: Journal Articles Status: Published Year Published: 2012 Citation: Reiskind, M.H., and A.A. Zarrabi. 2012. Water surface area and depth determine oviposition choice in Aedes albopictus (Skuse) (Diptera: Culicidae). Journal of Medical Entomology 49 (1): 71-76.

Progress 10/01/11 to 09/30/12

Outputs
OUTPUTS: I am in the process of disseminating the results of our West Nile virus surveillance efforts, in collaboration with the Oklahoma department of Health to participating units. As it is their primary role to communicate important findings to the public, I have left it to the participating units to inform the citizenry. I have also participated in a Multistate Project during this time (NE-1046 "Biology Ecology and management of Emerging Disease Vectors"). PARTICIPANTS: I continue to collaborate with several scientists in the College of Veterinary Medicine at Oklahoma State University: Dr. Susan Little, Dr. Mason Reichard, Dr. Lindsay Starkey and Dr. Roger Pancera. I continue to work with the state infectious disease epidemiologist, Dr. Kristy Bradley, of the Oklahoma Department of Health on the surveillance of mosquito vectors of West Nile virus. I also continue to collaborate with Dr. L. Phillip Lounibos and his research group of the Florida Medical Entomology Laboratory, at the University of Florida. I also collaborate with Dr. Sahotra Sarkar at the University of Texas, Austin, and Dr. Donald Yee at the University of Southern Mississippi. I have recently begun a collaboration with Dr. Carmen Greenwood (Oklahoma State University, Department of Entomology and Plant Pathology) and Drs. Fuhlendorf, Davis, Elmore and O'Connell (Oklahoma State University, Natural Resources and Environmental Management) on a large grant to look at the ecology of the northern bobwhite. TARGET AUDIENCES: Nothing significant to report during this reporting period. PROJECT MODIFICATIONS: Nothing significant to report during this reporting period.

Impacts
Our West Nile virus surveillance efforts found no positive mosquitoes. We have made considerable progress in our research program, completing a number of experiments on oviposition behavior, larval ecology and landscape ecology.

Publications

• No publications reported this period

Progress 10/01/10 to 09/30/11

Outputs
OUTPUTS: I am in the process of disseminating the results of our West Nile virus surveillance efforts, in collaboration with the Oklahoma Department of Health to participating units. As it is their primary role to communicate important findings to the public, I have left it to the participating units to inform the citizenry. I have also participated in a Multistate Project during this time (NE-1046 "Biology Ecology and Management of Emerging Disease Vectors"). PARTICIPANTS: I have worked with several key people over the last year. Through my former graduate student, Ms. Kelsey Paras, I continue to collaborate with several scientists in the College of Veterinary Medicine at Oklahoma State University: Dr. Susan Little, Dr. Mason Reichard, Dr. Lindsay Starkey and Dr. Roger Pancera. I continue to work with the state infectious disease epidemiologist, Dr. Kristy Bradley, of the Oklahoma Department of Health on the surveillance of mosquito vectors of West Nile virus. I also continue to collaborate with Dr. L. Philip Lounibos and his research group of the Florida Medical Entomology Laboratory, at the University of Florida. I also collaborate with Dr. Sahotra Sarkar at the University of Texas, Austin, and Dr. Donald Yee at the University of Southern Mississippi. I have recently begun a collaboration with Drs. Carmen Greenwood and Valerie O'Brien (Oklahoma State University, Department of Entomology and plant pathology) and Drs. Fuhlendorf, Davis, Elmore and O'Connell (Oklahoma State University, Natural Resources and Environmental Management) on a large grant to look at the ecology of the northern bobwhite. TARGET AUDIENCES: Nothing significant to report during this reporting period. PROJECT MODIFICATIONS: Nothing significant to report during this reporting period.

Impacts
Our West Nile virus surveillance efforts found no positive mosquitoes in 2011. We have made considerable progress in our research program, completing a number of experiments on oviposition behavior, larval ecology and landscape ecology. We currently have four articles in press, with one published in 2011. In addition, I finished one graduate student, Ms. Kelsey Paras (MS, 2011) who is now attending the doctoral program in veterinary medicine at the Ohio State University. I gave an invited talk at the Southwest branch of the Entomological Society of America annual meetings in Amarillo, Texas.

Publications

• Reiskind, M.H. and Zarrabi, A.A. 2011 The importance of an invasive fruit as a resource for mosquito larvae. Journal of Vector Ecology 36 (1): 197-203.
• Reichard, M., Tiernan, K., Paras, K., Intersisano, M., Reiskind, M.H., Panciera, R., and Pozio, E. 2011 Detection of Trichinella murrelli in Coyotes in Oklahoma and North Texas. In press at Veterinary Parasitology.

Progress 10/01/09 to 09/30/10

Outputs
OUTPUTS: I have disseminated the results of our West Nile virus surveillance efforts, in collaboration with the Oklahoma Department of Health and Tulsa County Public Health, to participating units. As it is their primary role to communicate important findings to the public, I have left it to them to inform the citizenry. I have given two seminars to professional meetings, the Florida Entomological Society in Jupiter, Florida and at the Entomological Society Meetings in San Diego, CA. I have also sent my research associate, Dr. Ali Zarrabi, to report on our work to the Southwest Branch of the Entomological Society of America. These seminars have shared the basic scientific findings of the project with an audience of interested scientists. I have also participated in a Multistate Project during this time (NE-1046 "Biology Ecology and Management of Emerging Disease Vectors"). PARTICIPANTS: I have worked with several key people over the last year. Through my graduate student, Ms. Kelsey Paras, I have established a collaboration with several scientists in the College of Veterinary Medicine at Oklahoma State University: Dr. Susan Little, Dr. Mason Reichard, and Dr. Roger Pancera. Through a post-doctoral associated funded through the Oklahoma Center for the Advancement of Science and Technology, Dr. Valerie O'Brien, I have begun a collaboration with Dr. Charles Brown at the University of Tulsa. I continue to work with the state infectious disease epidemiologist, Dr. Kristy Bradley, of the Oklahoma Department of Health on the surveillance of mosquito vectors of West Nile virus. I also continue to collaborate with Dr. L. Philip Lounibos and his research group of the Florida Medical Entomology Laboratory, at the University of Florida. I also collaborate with Dr. Sahotra Sarkar at the University of Texas, Austin, and Dr. Donald Yee at the University of Southern Mississippi. TARGET AUDIENCES: Nothing significant to report during this reporting period. PROJECT MODIFICATIONS: Nothing significant to report during this reporting period.

Impacts
Our West Nile virus surveillance efforts found no positive mosquitoes. This allowed the public health agencies we work with to appropriately devote their scarce resources to more important issues in 2010. We also made considerable progress in our research program, completing a number of experiments on oviposition behavior, larval ecology and landscape ecology. These experiments are in the process of being analyzed and published. During 2010 we had four articles published and one accepted, in press, that will be published in 2011.

Publications

• Lounibos, L.P., OMeara, G.F., Juliano, S.A., Nishimura, N., Escher, R.L., Reiskind, M.H., Cutwa, M., and Greene, K. 2010. Differential survivorship of invasive mosquito species in South Florida Cemeteries: do site- specific microclimates explain patterns of coexistence and exclusion Annals of the Entomological Society of America 103 (5): 757-770. Reiskind, M.H., Zarrabi, A.A., and Lounibos, L.P. 2010. Invasive leaf resources alleviate density dependence in the invasive mosquito, Aedes albopictus. Biological Invasions 12 (7): 2319-2328.
• Reiskind, M.H., Westbrook, C.J. and Lounibos, L.P. 2010. Exposure to chikungunya virus and adult longevity in Aedes aegypti (L.) and Aedes albopictus (Skuse). Journal of Vector Ecology 25 (1): 61-68.
• Westbrook, C.J., Reiskind, M.H., Green, K., and Lounibos, L.P. 2010. Larval environmental temperature and the susceptibility of Aedes albopictus to chikungunya virus. Vector-borne and Zoonotic Diseases 10 (3): 241-247.

Progress 10/01/08 to 09/30/09

Outputs
OUTPUTS: We have disseminated the results of our West Nile virus surveillance efforts, in collaboration with the Oklahoma Department of Health and Tulsa County Public Health, to participating units. As it is their primary role to communicate important findings to the public, we have left it to them to inform the citizenry. The principal investigator has given three invited seminars to academic institutions which have researchers interested in the topics support by Hatch Project 2707. These include the Federal Institute of Oswaldo Cruz (FIOCRUZ) in Rio de Janeiro, Brazil (July 26, 2009), which is equivalent to our Centers for Disease Control, the Department of Biology at the University of Tulsa (March 5, 2009), and the Veterinary Medicine College at Oklahoma State University (October 12, 2009). These seminars have shared the basic scientific findings of the project with an audience of interested scientists. We have also participated in a Multistate Project during this time (NE1024 "Insects and Public Health"). PARTICIPANTS: We have worked with several key people over the last year. We collaborate with the state infectious disease epidemiologist, Dr. Kristy Bradley, of the Oklahoma Department of Health on the surveillance of mosquito vectors of West Nile virus. As part of that project, we also work closely with the Tulsa County Department of Public Health. Our contact person is John Baker, director of Environmental Health Sciences. We are working with a microbiologist at Oklahoma State University, Dr. Babu Fathepure examining the microbial ecology of mosquito larval habitats. We continue to collaborate with Dr. L. Philip Lounibos and his research group of the Florida Medical Entomology Laboratory, at the University of Florida. TARGET AUDIENCES: Nothing significant to report during this reporting period. PROJECT MODIFICATIONS: Nothing significant to report during this reporting period.

Impacts
Our West Nile virus surveillance efforts found low number of positive mosquitoes, relative to past years. This allowed the public health agencies we work with to appropriately devote their scarce resources to more important issues in 2009 (e.g. the H1N1 influenza outbreak). We also made considerable progress in our research program, completing five experiments examining larval ecology. These experiments are in the process of being published. We have communicated these findings through seminars and in presenting at two meetings: the Southwestern Branch Meetings of the Entomological Society of America (March 3-4, 2009, Stillwater, OK) and the National Meetings of the Entomological Society of America (Dec ember 12-16, 2009, Indianapolis, IN).

Publications

• Reiskind, M.H. and Wund, MA. 2009. Experimental assessment of the impact of the northern long-eared bat on ovipositing Culex (Ditpera: Culicidae) mosquitoes. Journal of Medical Entomology 46 (5): 1037-1044.
• Westbrook, C.J., Reiskind, M.H., Green, K., and Lounibos, L.P. 2009. Larval environmental temperature and the susceptibility of Aedes albopictus to chikungunya virus. Vector-borne and Zoonotic Diseases, In Press.
• Reiskind, M.H. and Lounibos, L.P. 2009. Effects of intraspecific larval competition on adult longevity in the mosquitoes Aedes aegypti and Aedes albopictus. Medical and Veterinary Entomology 23 (1): 62-68.
• Pesko, K., Westbrook, C.J., Lounibos, L.P., Mores, C.N. and Reiskind, M.H. 2009. Effects of infectious virus dose and blood meal delivery method on susceptibility of Aedes aegypti and Aedes albopictus to chikungunya virus. Journal of Medical Entomology 46 (2): 395-399.
• Reiskind, M.H., Green, K.E., and Lounibos, L.P. 2009. Leaf species composition and identity affect performance and oviposition choice of two container mosquito species. Ecological Entomology 34 (4): 447-456.