Florida Medical Entomology Laboratory

Index to Florida Mosquito and Sandfly references in Florida Medical Entomology Laboratory (FMEL) Publications

Compiled by:
Late M. W. Provost. (1977). FMEL publications #1-418;
Jai K. Nayar. (2002). FMEL publications #419-1020

List of Florida mosquito and sandfly species studied in detail by FMEL faculty and staff from 1948 to 2002.

MOSQUITOES

Family Culicidae

SANDFLIES

Family Ceratopogonidae

Atrichopogon wirthi
Culicoides arboricola
Culicoides floridensis
Culicoides furens
Culicoides melleus
Culicoides variipennis
Dasyhelea chani
Forcipomyia dolichopodida

Leptoconops (H.) linley

SPECIAL TOPICS AND/OR REVIEWS

General Topics
Authors
Bromeliad-inhabiting mosquitoes
Mosquito identification keys
Mosquito adult and larval control
Parasites, arboviruses and diseases
Proteolytic enzymes in insects
Rotary Ditching
Scanning electron microscopy
Salt marsh impoundments
Ticks in Florida
Treehole mosquitoes (Diptera)

Visual ecology of biting flies

Family Culicidae

Family Culicidae	894, 998
Adult, female	998
larva, 4th instar	998

Subfamily Culicinae

Aedes (Aedes) cinereus
distribution, new Florida records	60
Aedes (Aedimorphus) vexans
blood-engorged, behavior	171, 218, 325, 339	nutrients vs. wing length	688
establishment	457	host blood	279
egg		nectar feeding	314
fine structure	756	ovarian stages and parity	339
chorionic sculpturing	756	sampling, adult
flight		bait traps	325
activity	157, 171, 218, 268, 325, 339	light traps	157, 325
humidity and rain effects	268, 325	power aspirator	171, 218, 268, 314, 325
moon effect	325, 338	sound trap	157
paths, sites, orientation	157, 218, 268, 338, 339, 448	suction trap	157, 218, 268, 314, 325, 338, 339
rhythms, daily	294	truck net	157, 218, 325
temperature effects	268, 325	visual attraction	441
wind effect	268	growth	225, 226, 237
Aedes (Protomacleaya) hendersoni
distribution	894
Aedes (Stegomyia) aegypti
Aedes (Stegomyia) aegypti	462, 466	infection with D. immitis	565, 673
20-OH-ecdysone		infection with D. immitis	673, 769
activity	27	inhibits
adult		insemination	462
adult	64, 69, 144	interspecific competition	1014
after feeding	329, 330, 334, 384	intracellular concretions	769
assessment	192	isozyme variation	701
at emergence	226, 237	juvenile hormone (JH)	649
autogeny	142	laboratory	620
binding to mosquito gut	865	larval marking	462
biosynthesis	816, 821, 835, 881	larval, protein	622
biosynthesis	625	life table characteristics
biosynthesis	882	lipids	151, 261
biosynthesis and distribution	603, 650	longevity, adults
biosynthesis in male accessory glands	872	Malpighian tubules
blood digestion	243, 245	mating without insemination	179
blood digestion	674, 735, 908	mechanism of coexistence	1014
blood digestion		metabolism	816, 821
blood feeding	462, 567, 874	metabolism	846
carbohydrates	151, 312, 329, 330	metabolism
characterization	846	methoprene	603
characterization	625	midgut proteolytic enzyme	674, 735, 696, 736
characterization	846	migration of microfilariae from midgut	901
colonized in bromeliads	577	nectar feeding	462
control	459	nutritional factors in development of Brugia	772
decline vs Ae. albopictus	906	nutritional reserves
defecation	925	oogenesis	908
desiccation	1014	oostatic factor	749
determination	681, 695	oostatic hormone (TMOF)	594, 771, 823, 846, 967
digestion	908	ovarian development	462
dispersal	462	ovary-specific protein	440
diuresis		oviposition	462, 482
ecdysone, biosynthesis and distribution	603	oviposition preference	577
ecdysteroids	674	peptide hormone (TMOF)	823, 846, 882
effect of adult age	312	peritrophic membrane	335
effect of age	245	phenoloxidase activity	890
effect of copper liners	827	plant sugars in adults	870
effect of D. immitis infection	726	potential
effect of D. immitis infection	725	protease	674, 681
effect of larval crowding	237, 294	proteins	330, 399
effect of mating	245	purification	625
effect of parity	245	recycling of discarded tires	459
effect on adults	226, 237	refractoriness to D. immitis	565
effect on egg maturation	127, 163, 205, 465, 589, 603	reproductive cycle	470
effect on metabolism	151	rhythm, daily	294, 296
effect on trypsin biosynthesis	908	scanning electron microscopy	719
egg		secretion	892
egg development	674, 735, 908	size and weight	237
egg development, neurosecretory hormone	470, 471, 589, 603	stimulus for vitellogenesis	574
encapsulation of Brugia malayi		sugar feeding	144, 329, 334, 874
endocrines		survival	874
energy reserves		susceptibility/refractoriness to D. immitis	565, 673, 701
excretion	925	synthesis and degradation	699
factors	225	terminal abdominal ganglion	925
fecundity	329, 330, 334, 384, 874	thermal tolerance	1014
fed	264, 329, 330	trypsin	674
field	620	trypsin biosynthesis	908
flight		trypsin modulating oostatic hormone (TMOF)	834, 842, 882, 967
fuel utilization	312	trypsinlike enzyme	823
genetics	701	unfed (potential)	264
growth, larval		uric acid	925
gut receptor	865	vector of dog heartworm	365
gut transport		vector of human filariasis	536
immunochemistry	865, 882	vitellin and vitellogenin	674
in vitro development of Brugia spp.	763, 779	vitellogenesis	399, 437, 449, 452, 470, 570, 571, 574, 589, 603, 648
infection with Brugia patei	561	vitellogenin synthesis	452, 471, 504, 570
infection with Brugia sp.	731
Aedes (Stegomyia) albopictus
arboviruses	632	host of Dirofilaria immitis	974
Ascogregarina tawinanensis	974	interspecific competition	1014
bacterial abundance in larval habitats	935	invasion	945
control in waste tires	932	invasion of bromeliads	916
control possibilities	945, 982	invasion of cemeteries	804, 811, 823, 935
control with copper liners	827, 935	mechanism of coexistence	1014
desiccation	1014	scanning EM	719
distribution(spread)	851, 906, 945, 982	size vs. fecundity	996
egg		thermal tolerance	1014
evaluation of larvicides	898	vector potential	945
Coquillettidia (Coquillettidia) pertubans (Mansonia perturbans)
abundance	757	humidity, rain, moon, temperature effects	157
activity	157	laboratory	620
bait traps	157	larval development	181
control, adult	23, 138	light trap	23, 65, 157, 392
distribution	757	nectar feeding	314
field	620	nutritional reserves
flight		paths, sites and orientation	157, 218, 268, 338
generations per year	25, 181, 392	plant association	434, 516, 757
growth	181	sampling, adult
host, blood	279	swarming, male	115
Culex (Culex) sp.
larval identification, first instar larvae	531
mosquito attractant, 1-Octenl-3-OL	766
seasonal abundance	477
Culex (Culex) bahamensis
distribution, new Florida records	60, 894
flight rhythm, daily	294, 296
growth	225, 226, 237
host, blood	327
Culex( Culex) nigripalpus
Culex( Culex) nigripalpus	200, 458	lipids	385
abundance following rainfall	200, 971	longevity
activity	157, 259, 268, 314, 325, 339	mating and insemination	280, 439
adult	418, 422	metabolism
after feeding	329, 330, 334, 384	moon effect	157, 325, 338
at emergence	175, 237,385	morphology
attractiveness		natural history	200
autogeny	200	nectar feeding
avian-pox	464	nutritional reserves	439
Bacillus thuringensis var. israelensis	972	occurrence	31, 200, 314, 419, 836
bait trap	157, 271, 325	ovarian age grading and parity	171, 259, 325, 339, 478
behavior	438	ovarian development	352, 444
behavior of blood engorged	171, 218, 325, 339	ovariolar dilatations	454
behavior, general	189, 291, 333, 339, 353, 369, 567, 677, 836	ovary-specific protein	440
blood-feeding	439	oviposition	439, 677
bobwhile quail	1003	paths, sites and orientation	157, 268, 338, 339, 448
body size, effect of environment	174, 745	pattern	857
breeding and rain effect	200, 477	periptrophic membrane	362, 613, 655
carbohydrate reserves, resting/flying	689	peritrophic membrane	313, 335, 362
carbohydrates	312, 329, 330, 385	Phosphorus32 marking technique	422
chemical, adult	69, 129, 139	physiology	330, 334, 352, 353, 362, 384
chemical, larvae	139	potential	237, 294, 312
chickens	1003	potential vector of EEE	931
chromatographic technique	419	potential vectors of Plasmodium elongatum	960
colonization	973	power aspirator	171, 218, 268, 314, 325
control		proteases	613, 655
crossing colonized and wild	242	proteins	330
digestion	613, 655	pupation rhythm, circadian	174, 200
dispersal of P32 marked adults	259, 430	rain effect on	31
distribution, geographical	200	rearing, mass	276
ectoperitrophic fluid	655	resting box	178
effect of impounding salt marsh	138	resting habits	200
effect of rainfall	729, 884, 971	rhythm, daily	200, 294, 296
effect of rainfall	857, 884	sampling
egg development	174	seasonal	720
emergence		seasonal abundance
endocrine effect, egg maturation	205	sentinel chickens	595
energy reserves		size and weight	175, 200, 237
evaluation of biotic and abiotic factors		sound trap	157
fecundity, control	329, 330, 334, 352, 353, 384	St. Louis encephalitis	135
fed	200, 329, 330	suction trap	157, 218, 268, 314, 325, 338
field	620	sugar feeding	419, 439
flight		survival of adults	175
fuel utilization	312	survival of P32 marked adults	430, 439
genetics		swarming, male	113, 200
growth, larval	174, 175, 200, 237, 385	temperature effects	113, 157, 268, 325
habitat, breeding	20, 200	truck net	157, 171, 218, 325
host behavior	254, 291, 292, 299, 333, 369, 567	trypsin	613, 695
host preference	1003	Turkey malaria (Plasmodium hermani)	396, 443, 447, 473, 581
host-location	677	unfed (potential)	175, 200, 385
hosts	189, 200, 327	vector of dog heartworm	365, 534
humidity and rain effects	157, 200, 230, 268, 275, 325, 595, 884	vector of parasites, viruses and/or diseases
influence of rainfall	684, 884, 971	Virus
laboratory	620	visual attraction	441, 455
larval	422	vitellogenin synthesis	437
larval, protein	622	wind effects	157, 268, 271, 325
light trap	157, 171, 259, 280, 325
Culex (Culex) pipiens quinquefasciatus
blood-feeding	567, 776	ovaries	802
colonized in bromeliads	577	oviposition	482, 776
control	69, 139	oviposition preference	577
effect of Bacillus sphaericus	631	postvitellogenic metabolism	802
eggs	855	protein accumulation	622
energy reserves		rearing, mass	276
flight patterns	294, 296	reproductive system, male	94
glycogen and lipid reserves	802	sampling, adult	192, 280
growth, larval	225, 226, 237	season, breeding and rain effect	200, 477
hosts, blood	327	seasonal	720
insecticide treatment, adults	803	starvation, after blood-feeding	776, 802
mating and insemination	280, 284	swarming, male	113, 159
metabolism, embryonic	855	trypsin	695
nutritional reserves	622	vector of dog heartworm	365, 534
ovarian age grading	478	visual attraction	441
Culex (Culex) restuans
colonization	973	oviposition, seasonal	720
flight paths	268	potential vectors of Plasmodium elongatum	960
host of Plasmodium forresteri	948	sampling, adult	268
hosts, blood	327	vector (experimental)of P. hermani	468
ovarian age grading	478
Culex (Culex) salinarius
colonization	973	oviposition, seasonal	720
effect of salt-marsh impoundment	138	paths, sites and orientation	268, 338
flight		potential vector of EEE	931
growth, larval	225, 226	potential vectors of Plasmodium elongatum	960
host of Plasmodium hermani	447	power aspirator	314
hosts, blood	327	rhythm, daily	294, 296
moon effects	338	sampling, adult
nectar feeding	314	seasonal abundance and breeding	200, 477
ovarian age grading	478	suction trap	268, 338
Culex (Culex) tarsalis
distribution, new Florida records	60
hosts, blood	327
sampling, adult, for control assessment	192
Culex (Melanoconion) spp.
activity	325	ovarian stages and parity	171, 325, 339
bait trap	325	paths, site and orientation	268, 338
Blood-engorged, behavior	171, 325	power aspirator	171, 268, 314, 325
flight		sampling, adult
humidity and rain effects	325	suction trap	268, 325, 338
identification key	278	temperature effects	325
light trap	325	truck net	325
moon effects	116, 325, 338	virus, SLE positive	135
nectar feeding	314
Culex (Melanoconion) erraticus
effect of salt-marsh impoundment	138
host-feeding	431, 573
identification keys	278
Culex (Melanoconion) iolambdis
distribution, new Florida records	60
host-feeding	431
identification keys	278
ovarian age grading	478
Culex (Melanoconin) mulrennani
distribution, new Florida records	60, 894
identification keys	278
Culex (Melanoconion) opithopus
distribution, new Florida records	60
host-feeding	431
identification keys	278
Ovarian age grading	478
Culex (Melanoconion) pecator
identification keys	278
host-feeding	431
Culex (Micraedes) biscaynensis
bionomics	975
description	975
distribution	975
in bromeliads	943
Culex (Mochlostyrax) pilosus
breeding in Keys	20
Flight paths	448
Host-feeding	431
identification keys	278
Culex (Neoculex) territans
hosts, blood	327
nectar, feeding	314
power aspirator	327
resting box	178, 327
sampling, adult
Culiseta (Culiseta) inornata
hosts, blood	297
reproductive system	94
Culiseta (Climacura) melanura
activity	157, 268, 314, 339	paths, site and orientation	268, 338, 339, 448
bait trap	157	power aspirator	171, 268, 314
blood-engorged, behavior	171, 339	resting box	178, 297
flight behavior	438	sampling, adult
growth, larval	225	sound trap	157
hosts, blood	297	suction trap	157, 268, 314, 338
humidity and rain effects	157, 268	swarming, male	115
light trap	157	temperature effects	157, 268
moon effects	157, 338	truck net	157
nectar feeding	314	visual attraction	441
ovarian stages and parity	339	wind effects	268
Deinocerites cancer
autogeny	429, 586	growth	225
blood feeding	730	hosts, blood	328
breeding in Keys	20	mating	730
distribution, new Florida records	60	nectar feeding	314, 730
fecundity	730	pupal attendance	166, 204
flight behavior	438	reproductive system, male	94
flight factors	65, 116, 275	sampling, adult	65, 157, 328
gonotrophic cycle	730	sugar-feeding	586
Deinocerites pseudes
autogeny	586
mating	586
sugar-feeding	586
Mansonia (Mansonia) dyari (Mansonia indubitans)
adults	23, 65, 157, 392	generations per year	23, 181, 392
body size	737	growth, larval	181
control, adult	23	larvae	123, 181
distribution, new Florida records	60	oviposition	714
egg development	737	parity	737
egg hatching	714	plant association	434, 561, 573, 714
egg, ultrastructure	686	tergal spines	713
fecundity	737
Mansonia (Mansonia) titillans
adults	268, 413, 338, 392	hosts, blood	279
distribution, new Florida records	60	larvae	123, 181
dog heartworm, vector	365	longevity, fed	329, 330
egg hatching, photoperiodic control	714	nectar-feeding	314
egg-hatching rhythm	307	oviposition	664, 714
eggs, ultrastructure	605, 686	plant association	434, 516, 573, 714
fecundity	329, 312, 338	tergal spines	713
generations per year	392
Ochlerotatus (Howardina) bahamensis (Aedes bahamensis)
autogeny	832	egg, scanning electron microscopy	719
blood-feeding	832	host and potential vector of SLE	777
distribution	692, 906	invasion of bromeliads	916
Ochlerotatus (Ochlerotatus) atlanticus (Aedes atlanticus)
control assessment	192	paths, site, orientation	268, 338
distribution	20, 60	power aspirator	171, 314
hosts, blood	279	suction trap	268, 338
moon effect	338	swarming, male	115
nectar feeding	314	virus, California	253
Ochlerotatus (Ochlerotatus) fulvus-pallens (Aedes fulvus-pallens)
hosts, blood	279
nectar feeding	314
reproductive system, male	94
sampling by power aspirator	314
Ochlerotatus (Ochlerotatus) infirmatus (Aedes infirmatus)
behavior of engorged	171, 218	paths, site, orientation	218, 268, 338
chorionic sculpturing	756	power aspirator	171, 218, 268, 314
fine structure	756	reproductive system, male	94
hosts	279	rhythms, daily	296
larval growth	225, 226, 237	seasonal occurrence	23
moon effect	338	suction trap	218, 268, 338
nectar feeding	314	virus, California	253
Ochlerotatus (Ochlerotatus) mitchellae (Aedes mitchellae)
crossing with Ae. sollicitans	351	hosts, blood	279
activity	171	power aspirator	171, 268
moon effect	338	suction trap	338
paths, sites, orientation	268, 338	seasonal occurrence	23
temperature effect	171
Ochlerotatus (Ochlerotatus) sollicitans (Aedes sollicitans)
abundance, factors	715	lipids	114, 152, 153, 160, 214, 319
activity	116, 157, 171, 325	Malpighian tubules	583
after feeding	301, 329, 330, 334, 384	metabolism	151, 136
at emergence	153, 226, 237	moon effect	116, 325
bait trap	157, 325	nectar feeding and rain effect	31
behavior of engorged	325	paths, sites, orientation	268
breeding habitats	20, 380	physiology	330, 334, 384
carbohydrates	114, 153, 160, 173, 212, 214, 146, 250, 312, 319, 566	potential	237, 294, 312
chemical	69, 93, 139	power aspirator	171, 268, 325
crossing with Ae. mitchellae	351	proteins	330, 566
distribution	17, 20, 23	rearing on sterile diet	161
effect of temperature	152, 160, 566	rhythms, daily	294, 296
effect on egg maturation	127, 163, 255, 262, 400	salt-marsh management	421
egg development neurosecretory hormone (EDNH)	470	size and weight	226, 237
fecundity	329, 330, 334, 384	sound trap	157
fed	153, 301, 329, 330	source reduction	421
flight behavior	438	suction trap	157, 268, 325
fuel utilization	250, 312	swarming, male	31, 72
hosts	279	temperature dependence survival	309
humidity and rain effects	157, 325	temperature effects	157, 171, 325
impoundment	138, 808	truck trap	116, 157, 325
intracellular melanization of D. immitis	583	unfed (potential)	153, 301, 309
larval growth	225, 226, 237, 313	vector of dog heartworm	365
light trap	17, 65, 157, 325	wind effects	325
Ochlerotatus (Ochlerotatus) sticticus (Aedes sticticus)
flight behavior and sampling	157
Ochlerotatus (Ochlerotatus) taeniorhynchus (Aedes taeniorhynchus)
abundance, factors	715	lipids	114, 151, 238, 303, 385
accessory gland and role	95, 593	male dependent	582
activity	24, 25, 27, 40, 116, 156, 157, 218, 314, 325, 397	male terminalia, rotation	102
actual	24, 41, 53, 89	males as mating stimulators	973
adult	44, 69, 82, 125, 129, 139,349	Malpighian tubules, ultrastructure	535
after feeding	264, 301, 316, 329, 330, 334, 384	mating	25, 53, 59, 72, 90, 284, 293, 308, 374, 400
age determination	53	mating and insemination	293
aggregation	196	metabolism	151, 215, 231, 238
anal papillae	315	migration	25, 41, 53
anatomy	92, 94, 109	migratory exodus	89
at emergence	145, 196, 197, 215, 217, 237, 385	moon effects	116, 157, 325
autogeny	66, 311, 366, 429, 702	mosquito oostatic hormone	594
Bacillus thuringensis var. israelensis	972	natural history, general	380
bait	24, 41, 157, 192, 325	nutrition	614, (640)
balloon-net	89	nutritional reserves at emergence	197
behavior	90, 270, 614 (644)	occurrence	31, 115, 314, 742
behavior of engorged	171, 218, 325	osmoregulation	315
behavior, general	364, 366	ovarian stages and parity	25, 53, 116, 171, 325, 397
biting	311	paths, sites, orientation	25, 53, 89, 157, 218, 268, 325, 338
carbohydrates	114, 151, 215, 231, 238, 250, 264, 303, 316, 329, 330, 385	photoperiod	28, 169, 188, 196, 197
colonization	59, 538	polymorphism, flight	217
cone	84, 89	potential	196, 217, 237, 221, 260, 264, 266, 293, 303, 364
control assessment	192	power-aspirator	171, 218, 268, 314, 325
cycles	24, 25	protein	303
density	25, 169, 196, 197, 385	pupal	28, 77, 165, 169
development	215	pupal behavior	270
development and emergence	24, 41	pupal duration	77, 270
diet control	136, 196, 197, 217, 266, 311, 329, 330, 334, 384, 702	pupation rhythm, circadian	28, 164, 165, 169, 176,188, 215, 221
diseases	120, 155, 198, 199	rain effect	31
dispersal	24, 27, 41, 145, 146	recovery techniques	24, 41
distinguishing characteristics	614, (637)	reproduction	614 (641)
distribution and abundance	17, 614, (642)	rhythms, circadian	31, 260, 296, 397
dog heartworm	365	rotating	41
effect of D. immitis infection	562, 660	rotation of male terminalia	53, 102
effect of mating	314, 400, 702	salinity	169, 197, 315
effect of temperature	77, 270, 282	salt-marsh management	138, 207, 211, 421
effect on feeding and flight behavior	364	screening	64
egg development neurosecretory hormone	163, 470, 471, 589, 594	sexual behavior	614
egg maturation	127, 136, 163, 205, 247, 391	size and weight	53, 196, 197, 215, 217, 237
emergence	28, 146	sound	157
emergence, adult	25, 28, 41, 165, 169	source reduction	421
endocrine control	127, 136, 247, 374, 391, 400	stenogamy	308
excretion	614, (640)	stenogamy, male dependent	582
fed	264, 266, 282, 329, 330	sterile rearing	161
female dependent control	308, 366	sticky	89, 293
field	438, 614, (643)	study methods	89
field observation	25	suction	116, 157, 192, 218, 268, 314, 325, 338, 397
flight paths	325, 338	sugar feeding	702
food	28, 169, 196, 197, 385	swarming and mating	72, 113
fuel utilization	250, 303, 312, 614	swarming, male	25, 31, 72, 90, 113, 293
fungus infection	120	sweep-net	24, 397
genetic control	366	synchronization	145, 146, 165, 176, 196
geographic distribution	17, 20, 311, 366	temperature	28,169, 188, 196, 197, 282
gynandromorphism	92	temperature effects	113, 115, 157, 159, 325
habitats, breeding	20, 24, 25, 41, 376, 380	temperature, effect on larval behavior	270
hosts, blood	244, 330, 334, 384, 538, 552, 614	terminalia rotation, male	102
humidity and rain effects	25, 115, 157, 230, 325	transmission	198, 199
insemination	284, 293	trapping	157
laboratory	217, 364, 614, (640)	truck net	14, 116, 156, 157, 171, 192, 218, 325
larval	25, 28, 76, 93, 118, 120, 139, 155, 169, 188, 196, 198, 199, 380, 808	unfed (potential)	264, 266, 385
larval crowding	294	vector of Dog heartworm	365, 534, 535
larval marking	24, 41	vector of human filariasis	536
lethal trait	347	vertical transmission of SLE	624
light	17, 24, 65, 157, 171, 192, 325, 397	virus, iridescent	155
light effects	25, 159, 260	vitellogenesis	593, 594
Ochlerotatus (Ochlerotatus) thelcter (Aedes thelcter)
breeding in Keys	20
distribution, new Florida records	60, 894
Ochlerotatus (Ochlerotatus) thibaulti (Aedes thibaulti)
distribution, new Florida records	60
Ochlerotatus (Ochlerotatus) tormentor (Aedes tormentor)
distribution, new Florida records	60
Ochlerotatus (Ochlerotatus) tortilis (Aedes tortilis)
breeding in Keys	20
distribution, new Florida records	60
Ochlerotatus (Protomacleaya) triseriatus (Aedes triseriatus)
accessory gland role	95	food type	831
anatomy	94	growth and effects	225, 226
breeding in Keys	20	hosts, blood	229
development and distribution	608	long term trends	954
eggs, scanning EM	711, 849	nectar feeding	314
endocrine control of egg maturation	127, 163	peritrophic membrane	313, 315
extinction	954	predation	831
fitness	831	predation by T. rutilus	954
flight, effect of larval breeding	294
Orthodpmyia alba
distribution	984
Psorophora spp.
mating and swarming	55
Psorophora (Psorophora ) ciliata
activity	171	paths, site and orientation	268, 338
control	69, 139	power aspirator	171, 268
hosts, blood	297	predation on salt-marsh mosquitoes	25
mating and pre-mating	55, 72	suction trap	268, 338
moon effects	338	swarming, male	55, 72
Psorophora (Grabhamia) columbiae (P. confinnis)
activity	157, 171, 325	nectar feeding	314
bait trap	157, 271, 325	ovarian stages and parity	171, 325
blood-engorged, behavior	171, 218, 325	paths, site and orientation	218, 268, 325, 339, 448
chorionic structure	750	peritrophic membrane	313
control	23, 69, 139	potential	312
fecundity	329, 330, 334, 384	power aspirator	171, 218, 268, 314
fine structure	750	rhythm, daily	294, 296
flight behavior	438	seasonal occurrence	23
fuel utilization	312	sound trap	157
growth, larval	225, 226, 237	suction trap	157, 218, 268, 314,325, 338
hosts, blood	279	swarming and pre-swarming	55
light trap	157, 171, 325	temperature effects	171, 325
longevity, fed	329, 330	truck net	157, 171, 218, 325
mating and swarming	55	visual attraction	441
moon effects	116, 325, 338	wind effects	325
Psorophora (Janthinosoma)cyanescens
distribution, new Florida records	60
Psorophora (Janthinosoma) ferox
blood-engorged, behavior	171, 218	ovarian stages and parity	171, 325
breeding in Keys	20, 894	paths, site and orientation	218, 268
chorionic structure	750	peritrophic membrane	313
fine structure	750	power aspirator	171, 218, 268, 314
growth, larval	225, 226, 237	rhythm, daily	294, 296
hosts, blood	279	suction trap	218, 268
mating and swarming	55, 72, 115	swarming , males	72, 113, 115
nectar feeding	31, 115, 314
Psorophora (Janthinosoma) horrida
distribution, new Florida records	60
Psorophora (Psorophora) howardii
accessory glands and role	95	nectar feeding	31
anatomy	94	paths	268
blood-engorged, behavior	218	power aspirator	218
breeding in Keys	20	suction trap	218, 268
fungus infection	120	swarming, male	72, 113
hosts, blood	279	temperature effects	113
mating and swarming	55, 72
Psorophora (Janthinosoma) johnstoni
biology, in Florida Keys	20
mating and swarming	55, 72
swarming, male	72
taxonomy	20
Psorophora (Grabhamia) pygmaea
breeding in Keys	20
distribution, new Florida records	60
Uranotaenia (Uranotaenia) lowii
activity	157, 171	paths, sites, orientation	268, 325, 338, 448
bait trap	325	power aspirator	171, 268, 314, 325
behavior	438	reproductive system, male	94
blood-engorged, behavior	171, 325	sound trap	157
breeding in Keys	20	suction trap	157, 268, 325, 338
effects of salt-marsh impoundment	138	temperature effects	71
light trap	65, 157, 325	truck net	325
moon, effects	157, 338	visual attraction	441
nectar feeding	314
Uranotaenia (Uranotaenia) sapphirina
activity	157, 171, 325	paths, sites, orientation	268, 338, 448
bait trap	157, 325	power aspirator	171, 268, 314, 325
behavior	438	sound trap	157
blood-engorged, behavior	171, 325	suction trap	157, 268, 325, 338
effects of salt-marsh impoundment	138	temperature effects	171
light trap	65, 157, 325	truck net	325
moon, effects	157, 325, 338	visual attraction	441
nectar feeding	314
Wyeomyia spp.
host blood	405
in bromeliads	485, 916
Wyeomyia (Wyeomyia) haynei
distribution, new Florida records	60
Wyeomyia (Wyeomyia) mitchelli (medioalbipes)
blood-feeding	474	marking with P³²	474
dispersal	474	nectar-feeding	314, 474
eggs	453	nutrition	474
emergence, circadian rhythm	418	ovarian development	474
energy reserves	385	oviposition	591
insemination	474	oviposition preference	577, 584
hosts, blood	405	populations and bromeliad size	402
larval feeding strategy	403	presence is bromeliads	554
longevity, fed	385	survival	474
Wyoemyia (Wyeomyia) smithii
autogeny	442, 476	fecundity	476
distribution	894	larval environment	476
eggs	453	reproductive maturation	467
Wyeomyia (Wyeomyia) vanduzeei
avian pox	464	host of Plasmodium hermani	435, 447
autogeny	427, 429	larval feeding strategy	403
bionomics	461	oviposition	376, 461,591
breeding in Keys	20	oviposition preference	577, 584
bromeliad size effect	402	parasite effect	410
eggs	453	mark-release-recapture experiments	409
egg mortality and rain	404	predation by Tox. r.ritilus	548
growth	225, 607	presence is bromeliads	554
hosts, blood	405	sex ratio	607

Subfamily Anophelinae

Anopheles (Nyssorhnchus) albimanus
Anopheles species	357
chromosomal differences	401
salt-marsh	853
adult morphology	936	inversions	359, 389
black larvae	381	mating in cages	372
breeding in Keys	325	production	360
competitive behavior	368	pupation	936
distribution, new records	60	survival to pupation	936
emergence	936	wing length	936
esterases	510
Anopheles (Anopheles) atropos
abundance	853	moon effect on light trapping	65
effect of impounding salt marshes	138	nectar feeding	31
flight behavior	438	parity	853
habitat, breeding	380	potential vector	931
hatching, delayed	380	scanning electron microscopy	815
Anopheles (Anopheles ) barberi
distribution, new Florida records	60
Anopheles (Anopheles) bradleyi
effect of salt marsh impounding	138
flight patterns	276
growth	225, 226
larval, Paris green	76
Anopheles (Anopheles) crucians
abundance	853	potential vector of EEE	931
activity	151, 171, 268, 325, 339	power aspirator	218, 268, 314
bait trap	157, 325	reproductive system, male	94
blood-engorged, behavior	218, 325, 339	resting boxes	178
breeding in Keys	20	sound trap	157
control	23, 138	suction trap	157, 218, 268, 314, 325, 338, 339
humidity and rain effect	157, 268, 275	swarming, male	115
light trap	65, 157, 325	temperature effects	268
moon effect	116, 157, 325, 338	truck net	157, 218, 325
nectar feeding	314	virus, California	253
ovarian stages and parity	325, 339	visual attraction	441
parity	853	wind effect	268
paths, sites, orientation	157, 218, 268, 338, 339, 448
Anopheles grabhamii
in Florida	1020
Anopheles (Anopheles ) perplexens
egg, scanning EM	885
Anopheles (Anopheles ) punctipennis
egg, scanning EM	885
flight behavior and sampling	157
vector of Plasmodium berghei	549
Anopheles (Anopheles ) quadrimaculatus
activity	157, 268, 325	light traps	65, 157, 325
bait traps	157	longevity, fed	329,330
binding to Brugia malayi parasite	914	migration of microfilariae from midgut	901
blood-engorged, behavior	218, 325, 567	moon effect	157, 325, 338
carbohydrate inhibition	914	nectar feeding	314
characterization	822	nutritional factors in development of Brugia spp.	772
complex to infection with Brugia spp.	805	paths, sites, orientation	268, 338
control	23, 69, 138, 139	peritrophic membrane	335
effect of D. immitis infection	562, 660	phenoloxidase activity	890
effect of wounding	924	potential	312
egg, scanning EM (complex spp.)	850	power aspirator	268
encapsulation of Brugia malayi	937	proteins	672
flight muscle	900	resting box	178, 279
fluid	119	rhythms, daily	294, 296
fuel utilization	312	sound trap	157
growth	225, 226	suction trap	157, 218, 268, 314, 325, 338
hemagglutinins	840, 937	susceptibility to Brugia sp.	561, 733
host of Plasmodium vivax	947	swarming, male	113
host, blood	279	temperature effects	113, 157, 268
humidity and rain effects	157, 268	to infection with Brugia spp.	805
immune response	937	truck net	157, 218, 325
in vitro development of Brugia spp.	763, 845	ultrastructure	666, 838, 867, 900
intracellular development of Brugia malayi	838, 839, 845	ultrastructure after D. immitis infection	666
intracellular melanization of Brugia spp.	694, 822, 838, 845	vector of Plasmodium vivax	947
lectin binding	838, 933	visual attraction	441
lectins	937	wind effect	268
Anopheles (Anopheles) walkeri
breeding season in Leesburg	23
moon effect on light traps	65

Subfamily Toxorhynchinae

Toxorhynchites amboinensis
body size	934
in bromeliads	485
larval cannibalism	934
sexual receptivity	934
attractant	678, 718	longevity	626
body size	934	predator/prey relations	678
cues	794	predatory behavior	731, 896
diel rhythm	626	repellent	678
egg cannibalism	678, 712	search behavior	837, 844
egg, scanning electron microscopy	687, 728	sexual receptivity	934
fecundity	626	site selection	794
flight	661	surface reflectance	794
larval cannibalism	934
Toxorhynchites brevipalpis
egg cannibalism	712
oviposition attractant	718
predatory behavior	731, 896
Toxorhynchites (Lynchiella) rutilus rutilus
body size	934, 958	natural prey	997
cannibalism	717, 992	oviposition	787
development	608, 954	predator frequency	954
digestion	997	rate of increase	958
distribution	608, 787	scanning electron microscopy	687
electivity	997	search behavior	844
larval cannibalism	934	seasonality	954
life tables	992	sexual receptivity	934
mortality	992	survivorship	992
natural predator	548
Toxorhynchites splendens
egg cannibalism	712
egg, scanning electron microscopy	728
oviposition attractant	718

Sandflies

Atrichopogon wirthi
autogeny	530	sandflies associated with Pistia stratiotes	852
biting midges and human health	484	tourism	258
Ceratopogonidae	484, 602	vectors of non-viral pathogens	602
salt marsh biting midges	379
description	676
development, laboratory	693
distribution	752
life history	752
Culicoides arboricola
description	256
Culicoides floridensis
pupa	239
Culicoides furens
activity	854	food, natural	861
age	604	grooming organ	331
autogeny	227	insecticide treatment, adults	803
colonization	195	lateral abdominal pigmentation	604
collection	38	nutritional state	854
emergence, seasonal	248	oogenesis	604
evaluation of naled	656	rearing technique	216
feeding behavior	861	tergal pigmentation	568
field activity patterns	98
Culicoides melleus
body stimulus	533	potency	318, 321
copulation	354, 355	precopulatory orientation	533
culture of larval food	433	seasonal change in pupal sex ratio	426
diuresis	559	sexual behavior	345, 411
ecology and behavior	287	sexual receptivity	320
ejaculation	346	sexual response	487
female fecundity	386	size	386
grooming organ	331	sperm motility	463
growth and survival	580	sperm supply	370
larval food	580	spermatophore emptying	451, 463
male potency	386	spermatophore formation	263, 412, 450
mating behavior	300	spermatozoa	432
mating pheromone	425
Culicoides variipennis
age	604	lateral abdominal pigmentation	604
diuresis	559	oogenesis	604
effect of temperature	621	oviposition	616
effect of viscosity	621	swimming behavior	621
egg hatching, effect of salinity	616	tergal pigmentation	568
Dasyhelea chani
description	743
distribution	767
ecology	767
Forcipomyia dolichopodida
General Information	705
Leptoconops (H.) linley
autogeny	480

Special Topics and/or Reviews

General Topics
1-Octenl-3-OL	766	illumination	598
aggregation	237	immune response to parasites	953
anti-mosquito behavior	292	in waste tire pile	871
aquatic plant association	516	inhibition of proteolytic enzyme	749
associated with Pistia stratiotes	573, 852	invasive exotic species	906, 1012, 1020
at emergence	226, 237	light	768
autogeny	572, 610	male accessory glands	95
behavior and environment	598	male reproductive tract	94
blood and sugar for fecundity	384	measurements of population changes	598, 606
blood engorgement behavior	218	melanization of parasites	953
blood for fecundity	334	metabolism of nutrients	173, 566
blood for survival	330	meteorological effects upon catches	598
carbohydrates for survival	329	meteorological factors	598
chemical ecology & behavior	685	methods	157
chicken-baited trap	271, 325, 1003	motives	27
circadian rhythms	296	nectar sugars and nectar feeding	382, 895
container breeding, no indigenous	966	neurosecretory hormone	589
cup changer	578	New Jersey traps	325
cytogenetics	358	nutritional ecology	629
determination of carbohydrates	596	oostatic factor (hormone) (TMOF)	749, 771
distribution	657	orientation to CO2 and host	428
distribution records, new	60, 988	oviposition	685
diurnal rhythms	225	paths	448
effect of a flight barrier	657	patterns	279, 297, 327, 328
effect of density	291	pupation rhythms	225
effect of moon light	65, 116	reproductive biology	391
effect of wind and shadows	588	salivary gland antigens	703, 710
effect of wind velocity	588, 911	salt marsh	380
emergence rhythms	225	sampling site	598
encapsulation of parasites	953	sampling techniques	598
energy reserves for survival	385	selection of a sampling technique	598
engorgement on hosts	567	suction	116, 157, 325, 438, 441, 455, 873, 911
environmental factors	225	sugar feeding	314
everglade restoration	1005, 1019	surveillance	606
flight paths	598	swarming and mating	72, 113
Fuel utilization	312	temperature	598
general article	207	truck-mounted trap	116, 156, 325
genetics	358	trypsin	749
gonotrophic interactions	702	use of logarithms for analysis	228
habitat	598	vector-host interactions	634
hemagglutinins	953	vehicle mounted aspirator	171
host behavior	299	visual control of flight paths	455
host feeding behavior	291, 297, 405, 567	visual responses	627, 873
humidity	598	zoogeography	390
Bromeliad-inhabiting mosquitoes
General	460, 485, 554
Toxorhynchites spp.	485, 584
Wyeomyia spp.	485, 584
Mosquito adult and larval control
General	1, 2, 7, 11, 139, 192, 211, 289, 406, 479	in waste tire piles	932
adulticides	23, 69, 82, 125, 129, 139, 192	larvicides	76, 93, 118, 551, 599, 615,631, 635, 651, 652, 670, 735, 898, 932, 961, 967, 972, 1004
biological	349, 879	measuring dispersal	798
dosage tests	44	removal trapping	876
evaluation of adulticides	43, 679, 803	service requests	784, 807
genetic	546	sugar baited insecticides	144
impact of SLE epidemic	791	surveillance, adult	606
immune mosquitoes	910	survey of salt marshes	479
Mosquito identification keys
adult females	998	Nutrient metabolism in mosquitoes	566
determination	149, 150	nutrient vs. wing length	709
larvae, 4^th instar	998	Nutritional ecology of blood feeding diptera	629
Nutrient accumulation in mosquitoes	680
Parasites, arboviruses and diseases
antibodies in Emus	931, 956	Plasmodium berghei (rodent malaria)	549
antibodies in armadillo	893	Plasmodium forresteri	948
antibodies in small mammals	928	Plasmodium hermani (Turkey malaria)	396, 443, 447, 468, 473, 581
arboviruses	632, 994	Plasmodium vivax (human malaria)	947
avian pox	464	positive bird	1006
avian serology	977	potential vectors	931
Brugia pahangi	585	predicting epidemics	1004
Brugia patei	561	seroconversion	595, 923
California group viruses	253	St. Louis encephalitis virus	PH1001*
Cx. nigripalpus as vector	789	surveillance, integrated approach	792
Dirofilaria tenuis	576	Tensaw	1011
Dog heartworm (D. immitis)	365, 534, 562, 565, 583, 974, PH1003*	transmission patterns	923
Eastern equine encephalitis	819	Trivittatus	253
host and potential vector	777	use of chickens for surveillance	734, 891, 923
human Filariasis (Wuchereria bancrofti)	536	use of pheasants for surveillance	891
Human malaria	817, PH1002*	vector competence tests	1017
in Florida	1018	vector-host interaction	634
in humans	990	vertical transmission	624
isolation from mosquitoes	135	viral antibody in chickens	765
Keystone	253, 1011	virus infection rates	789
mosquito hosts	1001	West Nile	984, 995, PH1004*
PCR technique	897
Proteolytic enzymes in insects
Genaral	695, 696, 697
technique	681
Rotary ditching
effects on fish	721
Scanning electron microscopy
mosquito eggs (technique)	675
Salt marsh impoundments
General	479, 770, 788, IRL 1001*	nutrients	790
access	747	physical condition	773
Avicennia germinans	892	production	770
Batis	770	rehabilitation of impoundments	938
chemical characteristics of soil	866	Rhizophora mangle	892
database, Florida	690	Salicornia	770
fishes	747, 773	Syringodium filiformes	IRL1002*
for mosquito control	80, 138, 187	effect of shade on carbohydrate levels	941
guide to salt marsh	746	sulfide variation	820
lagoon	790	survey	479
Laguncularia racemosa	892	tides	277, 387
management	112, 138, 187, 211, 326, 348	vegetation	748
mangrove	747, 748, IRL1003*	water chemistry	790
mangrove seeding growth	892	wetland impoundments	788
Ticks in Florida
General	281, 986, 999, PH1005*
Treehole mosquitoes (Diptera)
General	486, 608
Aedes triseriatus	486, 608
Corethrella appendiculata	486
Orthopodomyia signifera	486
Toxorhynchiltes rutilus	486, 548, 608, 787
Visual ecology of biting flies
General	627

Authors

Adams, G. M.	287, 300, 320	Kitzmiller, J. B.	357, 358, 359, 360, 368, 372, 381, 401, 510
Aussel, J-P.	854, 861	Larson, V. L.	832
Baker, R. H.	546, 817, 947	Lea, A.O.	66, 127, 136, 142, 144, 151, 163, 179, 202, 203, 205, 231, 238, 247, 255, 262, 276, 280, 284, 470, 504, 571
Bidlingmayer, W. L	38, 51, 64, 98, 116, 123, 156, 157, 171, 181, 192, 218, 228, 268, 293, 314, 325, 338, 339, 390, 397, 438, 441,448, 455, 479, 578, 588, 598, 606, 614(642), 657, 873, 911	Linley, J. R.	186, 195,198, 199, 216, 227, 239, 248, 256, 258, 263, 270, 287, 300, 318, 320, 321, 331, 345, 346, 354, 355, 370, 376, 379, 386, 411, 412, 425, 426, 432, 433, 450, 451, 463, 480, 484, 487, 530, 533, 559, 568, 580, 602, 604, 605, 614(644) , 616, 621, 626, 652, 656, 661, 664, 675, 676, 678, 679, 686, 687, 693, 705, 711, 712, 713, 717, 718, 719, 728, 731, 743,750, 752, 756, 767, 803, 815, 837, 844, 849, 850, 854, 861, 885, 896
Borovsky, D.	399, 437, 440,449, 452, 471, 504, 570, 574, 579, 589, 593, 594, 603, 613, 625, 648, 649, 650,652, 674, 681, 695, 696, 697, 699, 735, 736, 749, 771, 816, 821, 823, 834, 835, 842, 865, 872, 881, 882, 897, 908, 967	Lord, C. C.	986, 996, 999, 1003, PH10005*
Branch, N.	60, 102,	Lounibos, L. P.	442, 466, 467, 476, 481, 486, 516, 573, 608, 605, 632, 664, 714, 737, 798, 801, 831, 852, 853, 879, 894, 934, 954, 958, 992, 997, 1012
Clements, B. W.	129, 138	Lum, P. T. M.	66, 92, 94, 95, 102, 114, 120, 155, 165, 176
Cody, E. F.	339, 353, 362	Lynn, H. C.	352, 353, 482, 591, 870
Crossman, R. A. Jr	418, 654,747, 748, 773, 790, 820	Mahmood, F.	725, 726, 735, 908
Curtis, G. A.	376, 402, 403, 404, 409, 410, 453	Meola, R.	255, 262
Cutwa, M. M.	1014	Meola, S. M.	236, 255
Darsie, R. F.	988, 998, 1020	Mikarts, L. L.	822, 838, 839, 845
Day, J. F.	538, 552, 567, 595, 620, 627, 631, 634, 677, 685, 688, 689, 709, 729, 874 734,742, 745, 765, 792, 836, 857, 870, 876, 884, 893, 911, 923, 928, 931, 956, 971, 977, 984, 990, 994, 995, 999, 1003, PH1004*	Mook, M. S.	345, 426
Dewald, L. B.	714, 801	Mook, D. H.	730, 832
Dow, R. P.	135, 230, 259, 271, 293	Morris, C. D.	271, 737, 757, 766, 791, 798, 807, 819, 871, 891, 932
Duzak, D.	712, 934, 958	Nayar, J. K	161, 164, 169, 174, 175, 176, 188, 196, 197, 215, 217, 225, 226, 237, 250, 260, 264, 266, 282, 293, 294, 296, 303, 307, 312, 315, 316, 329, 330, 334, 364, 365, 384, 385, 396, 418, 419, 422, 427, 430, 435, 439, 443, 444, 447, 454, 458, 462, 464, 468, 473, 474, 478, 534, 535, 536, 549, 551, 561, 562, 565, 576, 581, 583, 585, 599, 614 (637, 638, 639, 640), 615, 624, 635, 651,660, 666, 670, 672, 673, 694, 701, 703, 710, 725, 726, 733, 763,768, 769, 772, 779, 805, 822, 838, 839, 840, 845, 865, 867, 890, 898, 900, 901, 910, 914, 924, 933, 937, 945, 947, 948, 953, 960, 961, 972, 973, 974, 982, 1004,1011, PH1002, PH1003**
Edman, J. D.	171, 178, 189, 218, 243, 244, 245, 253, 254, 276, 279, 280, 291, 292, 293, 297, 299, 327, 328, 333, 349, 352, 353, 366, 369, 405, 431, 428	Nielsen, E. T.	25, 28, 32, 53, 72, 77,113, 159, 614(643)
Escher, R. L.	481, 573, 831, 852, 853, 934, 954, 958	Nishimura, N.	801, 831, 954
Evans, D. G.	77, 270, 284, 308, 311, 351, 374, 400, 578, 588, 657, 911	O'Meara, G. F.	242, 257, 261, 273, 308, 311, 347, 351, 366, 374, 380, 391, 400, 429, 442, 467, 476, 477, 516, 531, 548, 554, 572, 582, 584, 586, 610, 614 (641), 629, 692, 702, 715, 730, 804, 811, 832, 851, 906, 916, 935, 943, 966, 975, 1014, 1019
Evans, F.D.S.	178, 186, 201, 227, 248, 340, 477113, 115, 159, 198, 199, 201, 227, 248, 376, 402	Paush, R. D	145, 146
Evans, H. T. (Nielsen, H. T)		Pierce, P. A.	385, 418, 427, 439
Evans, L. F.	851, 906, 916, 943	Provost, M. W.	1, 2, 7, 11, 17, 22, 23, 24, 27, 41, 55, 65, 75, 80, 89, 102, 140, 145, 146, 165, 166, 176, 187, 200, 207, 211, 221, 240, 275, 277, 289, 293, 295, 326, 348, 382, 387, 392, 406, 421, 422, 430
Frank, J. H.	376, 402, 403, 404, 409, 410,446, 453, 457, 459, 460, 461, 466, 482, 485, 548, 554, 577, 584, 591, 607, 633	Rey, J. R.	466, 654, 690, 721, 746, 747, 748, 773, 788, 790, 808, 820, 866, 892, 938, 941,1005, 1019, *PH1001, IRL1001, IRL1002, IRL1003***
Franklin, B. P.	339	Rathburn, C. B.	43, 44, 69, 76. 82, 93, 118, 125, 129, 139
Garrish, G. M.	230	Rogers, A. J.	43, 44, 69, 76, 82, 93, 118, 125, 129, 138, 139
Gettman, A. D.	804, 851, 906, 916	Rutledge, C. R.	995
Haeger, J. S.	20, 28, 31, 32, 59, 72, 90, 166, 242, 278, 290, 293, 349, 405 ,427, 434, 531, 614(642, 643)	Sauerman, D. M. Jr	196, 217, 225, 226, 237, 260, 264, 266, 294, 296, 303, 307, 312, 315, 316, 329, 330, 334, 364, 365, 384, 422, 534, 535, 536, 551, 565, 614(639)
Hansen, C. W.	290, 430, 588	Schmid, A. A.	244, 333
Hem, D. G.	314,438, 441,448	Shaffer, J.	790, 820
Hinds, M. J.	318, 321, 346, 355	Shroyer, D. A	632, 706, 777, 789
Hribar, L.	936	Sky, G. E.	319
Hu, G. H.	853	Stahl, R.	788, 808, 820
Jennings, A. M.	339	Stephens, F. C.	941
Jordan, S	787, 794, 803	Tabachnick, W. J.	984, 994, 995, 1006, 1017, 1018, PH1004*
Kale, H. W.	184, 194, 254, 291, 297, 299, 407, 408	Van Handel, E	114, 119, 149, 150, 151, 152, 153, 160, 168, 170, 172,173, 212, 214, 231, 238, 246, 249, 250, 261, 290, 298, 301, 309, 319, 399, 437, 440, 456, 470, 504, 566, 571, 596, 597, 614( 640), 620, 622, 655, 680, 688, 689, 709, 742, 776, 802, 836, 855, 870, 872, 895, 925
Kane, T.	746, 747, 748, 788, 790, 820, 866	Vose, F. E.	582
Knight, J. W.	178, 278, 351, 444, 454, 478, 561, 624, 701, 703 , 710, 731, 763, 769, 772, 779, 805, 822, 838, 839, 845, 867, 900, 901, 910, 914, 924, 933, 937, 947, 948, 953, 960, 972, 973, 1011	Webber, L. A.	291, 292, 297, 299, 333, 369

Florida Medical Entomology Laboratory

Florida Medical Entomology Laboratory

Index to Florida Mosquito and Sandfly references in Florida Medical Entomology Laboratory (FMEL) Publications

MOSQUITOES

Family Culicidae

Subfamily Culicinae

Subfamily Anophelinae

Subfamily Toxorhynchinae

SANDFLIES

Family Ceratopogonidae

SPECIAL TOPICS AND/OR REVIEWS

Family Culicidae

Subfamily Culicinae

Aedes (Aedes) cinereus

Aedes (Aedimorphus) vexans

Aedes (Protomacleaya) hendersoni

Aedes (Stegomyia) aegypti

Aedes (Stegomyia) albopictus

Coquillettidia (Coquillettidia) pertubans (Mansonia perturbans)

Culex (Culex) sp.

Culex (Culex) bahamensis

Culex( Culex) nigripalpus

Culex (Culex) pipiens quinquefasciatus

Culex (Culex) restuans

Culex (Culex) salinarius

Culex (Culex) tarsalis

Culex (Melanoconion) spp.

Culex (Melanoconion) erraticus

Culex (Melanoconion) iolambdis

Culex (Melanoconin) mulrennani

Culex (Melanoconion) opithopus

Culex (Melanoconion) pecator

Culex (Micraedes) biscaynensis

Culex (Mochlostyrax) pilosus

Culex (Neoculex) territans

Culiseta (Culiseta) inornata

Culiseta (Climacura) melanura

Deinocerites cancer

Deinocerites pseudes

Mansonia (Mansonia) dyari (Mansonia indubitans)

Mansonia (Mansonia) titillans

Ochlerotatus (Howardina) bahamensis (Aedes bahamensis)

Ochlerotatus (Ochlerotatus) atlanticus (Aedes atlanticus)

Ochlerotatus (Ochlerotatus) fulvus-pallens (Aedes fulvus-pallens)

Ochlerotatus (Ochlerotatus) infirmatus (Aedes infirmatus)

Ochlerotatus (Ochlerotatus) mitchellae (Aedes mitchellae)

Ochlerotatus (Ochlerotatus) sollicitans (Aedes sollicitans)

Ochlerotatus (Ochlerotatus) sticticus (Aedes sticticus)

Ochlerotatus (Ochlerotatus) taeniorhynchus (Aedes taeniorhynchus)

Ochlerotatus (Ochlerotatus) thelcter (Aedes thelcter)

Ochlerotatus (Ochlerotatus) thibaulti (Aedes thibaulti)

Ochlerotatus (Ochlerotatus) tormentor (Aedes tormentor)

Ochlerotatus (Ochlerotatus) tortilis (Aedes tortilis)

Ochlerotatus (Protomacleaya) triseriatus (Aedes triseriatus)

Orthodpmyia alba

Psorophora spp.

Psorophora (Psorophora ) ciliata

Psorophora (Grabhamia) columbiae (P. confinnis)

Psorophora (Janthinosoma)cyanescens

Psorophora (Janthinosoma) ferox

Psorophora (Janthinosoma) horrida

Psorophora (Psorophora) howardii

Psorophora (Janthinosoma) johnstoni

Psorophora (Grabhamia) pygmaea

Uranotaenia (Uranotaenia) lowii

Uranotaenia (Uranotaenia) sapphirina

Wyeomyia spp.

Wyeomyia (Wyeomyia) haynei

Wyeomyia (Wyeomyia) mitchelli (medioalbipes)

Wyoemyia (Wyeomyia) smithii

Wyeomyia (Wyeomyia) vanduzeei

Subfamily Anophelinae

Anopheles (Nyssorhnchus) albimanus

Anopheles (Anopheles) atropos

Anopheles (Anopheles ) barberi

Anopheles (Anopheles) bradleyi

Anopheles (Anopheles) crucians

Anopheles grabhamii

Anopheles (Anopheles ) perplexens

Anopheles (Anopheles ) punctipennis