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Items: 1 to 20 of 300

1.

Modeling Culex tarsalis abundance on the northern Colorado front range using a landscape-level approach.

Schurich JA, Kumar S, Eisen L, Moore CG.

J Am Mosq Control Assoc. 2014 Mar;30(1):7-20.

PMID:
24772672
2.

Mosquitoes and West Nile virus along a river corridor from prairie to montane habitats in eastern Colorado.

Barker CM, Bolling BG, Black WC 4th, Moore CG, Eisen L.

J Vector Ecol. 2009 Dec;34(2):276-93. doi: 10.1111/j.1948-7134.2009.00036.x.

4.

The effect of spatial and temporal subsetting on Culex tarsalis abundance models--a design for sensible reduction of vector surveillance.

Brown HE, Doyle MS, Cox J, Eisen RJ, Nasci RS.

J Am Mosq Control Assoc. 2011 Jun;27(2):120-8.

PMID:
21805843
5.

Larval nutritional stress does not affect vector competence for West Nile virus (WNV) in Culex tarsalis.

Dodson BL, Kramer LD, Rasgon JL.

Vector Borne Zoonotic Dis. 2011 Nov;11(11):1493-7. doi: 10.1089/vbz.2011.0662. Epub 2011 Aug 25.

6.

Modeling monthly variation of Culex tarsalis (Diptera: Culicidae) abundance and West Nile Virus infection rate in the Canadian Prairies.

Chen CC, Epp T, Jenkins E, Waldner C, Curry PS, Soos C.

Int J Environ Res Public Health. 2013 Jul 22;10(7):3033-51. doi: 10.3390/ijerph10073033.

7.

Impact of aerial spraying of pyrethrin insecticide on Culex pipiens and Culex tarsalis (Diptera: Culicidae) abundance and West Nile virus infection rates in an urban/suburban area of Sacramento County, California.

Elnaiem DE, Kelley K, Wright S, Laffey R, Yoshimura G, Reed M, Goodman G, Thiemann T, Reimer L, Reisen WK, Brown D.

J Med Entomol. 2008 Jul;45(4):751-7.

PMID:
18714879
8.

West Nile virus in host-seeking mosquitoes within a residential neighborhood in Grand Forks, North Dakota.

Bell JA, Mickelson NJ, Vaughan JA.

Vector Borne Zoonotic Dis. 2005 Winter;5(4):373-82.

PMID:
16417433
9.
10.

Irrigated agriculture is an important risk factor for West Nile virus disease in the hyperendemic Larimer-Boulder-Weld area of north central Colorado.

Eisen L, Barker CM, Moore CG, Pape WJ, Winters AM, Cheronis N.

J Med Entomol. 2010 Sep;47(5):939-51.

PMID:
20939393
11.

National and regional associations between human West Nile virus incidence and demographic, landscape, and land use conditions in the coterminous United States.

DeGroote JP, Sugumaran R.

Vector Borne Zoonotic Dis. 2012 Aug;12(8):657-65. doi: 10.1089/vbz.2011.0786. Epub 2012 May 18.

PMID:
22607071
12.

Modeling the spatial distribution of mosquito vectors for West Nile virus in Connecticut, USA.

Diuk-Wasser MA, Brown HE, Andreadis TG, Fish D.

Vector Borne Zoonotic Dis. 2006 Fall;6(3):283-95.

PMID:
16989568
13.

Culex restuans (Diptera: Culicidae) relative abundance and vector competence for West Nile Virus.

Ebel GD, Rochlin I, Longacker J, Kramer LD.

J Med Entomol. 2005 Sep;42(5):838-43.

PMID:
16363169
15.
16.

Ecological niche modeling of mosquito vectors of West Nile virus in St. John's County, Florida, USA.

Sallam MF, Xue RD, Pereira RM, Koehler PG.

Parasit Vectors. 2016 Jun 29;9(1):371. doi: 10.1186/s13071-016-1646-7.

17.

Ecology of potential West Nile virus vectors in Southeastern Louisiana: enzootic transmission in the relative absence of Culex quinquefasciatus.

Godsey MS Jr, King RJ, Burkhalter K, Delorey M, Colton L, Charnetzky D, Sutherland G, Ezenwa VO, Wilson LA, Coffey M, Milheim LE, Taylor VG, Palmisano C, Wesson DM, Guptill SC.

Am J Trop Med Hyg. 2013 May;88(5):986-96. doi: 10.4269/ajtmh.12-0109. Epub 2013 Mar 11.

18.
19.

Seasonal blood-feeding behavior of Culex tarsalis (Diptera: Culicidae) in Weld County, Colorado, 2007.

Kent R, Juliusson L, Weissmann M, Evans S, Komar N.

J Med Entomol. 2009 Mar;46(2):380-90.

PMID:
19351092

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