CIRCULAR 237 JULY 1977 w Seasonal and Diurnal Distributions of Adult Female at Gold Hill,Alabama AGRICULTURAL EXPERIMENT STATION AUBURN UNIVERSITY R. DENNIS ROUSE, Director-AUBURN, ALABAMA CONTENTS Page SUMMARY .. .... ....................... ............................ ......... ......... 2 INTRODUCTION 3 4 8 8 9 10 MATERIALS AND METHODS ................ RESULTS AND DISCUSSION ...................... .... ......... ........... Relative Abundance .................................. Seasonal Distribution and Abundance ..................... Diurnal Distribution ................................. LITERATURE CITED .......... ......... .. .......... 27 SUMMARY Horse flies (Tabanus spp. L.) and a few closely related species were studied in 1970 and 1971 at Gold Hill, Alabama, to determine their seasonal and diurnal distribution patterns. Collections showed horse flies were active from early May to mid-October, with peak activity from mid to late June. Activity was slight early in the morning but gradually increased from mid-morning until near dark when activity generally ceased. Twenty-nine species of Tabanus and five species of relatively uncommon tabanids were collected. Tabanus fulvulus Wiedemann and T. pallidescens Philip were the most abundant species collected. FIRST PRINTING 4M, JULY 1977 Information contained herein is available to all regardlessof race, color, or nationalorigin. SEASONAL and DIURNAL DISTRIBUTIONS of ADULT FEMALE HORSE FLIES (Diptera, Tabanidae) at Gold Hill, Alabama ALTA M. BURNETT and KIRBY L. HAYS' INTRODUCTION The first records on seasonal distribution and relative abundance of the horse flies (Tabanus spp. L.) of North America appeared in the literature in the early 1900's [Hine (8)]. The first graphic representation of seasonal distribution of tabanid species was presented by Stone (21) in 1930. In 1942 Fairchild (3) reviewed the literature pertaining to seasonal distribution of tabanids. Research in this area has increased since the mid 50's [Abbassian-Lintzen (1), Glasgow (4), Hanec and Bracken (6), Judd (12), Smith et al. (20), Thompson (22)]. Some reports [Hoffman (9), Pechuman (18)] presented data concerning seasonal distribution of species in the southeastern U.S. Most reports on the diurnal activity of horse flies have been superficial and brief. There are occasional references to the time of hovering, mating, feeding, and flight activities of specific flies as well as tabanids in general [Blickle (2), Jones and Anthony (10), Jones and Bradley (11), Lavigne et al. (14), Mosier and Snyder (17)]. A few studies of hourly activity [Haddow and Corbet (5), Harley (7), Miller (16), Roberts (19), Twinn et al. (23)] and one graphic presentation of diurnal distribution data [Harley (7)] have been reported. Graduate student and Head, Department of Zoology-Entomology. This circular is the first report on seasonal distribution and diurnal activity of horse flies in Alabama. MATERIALS AND METHODS Four modified Malaise traps [Malaise (15)1 baited with CO, were used to collect adult female horse flies. Each trap was tent-like, ca. 2.6 m (8.5 ft) square. 2.1 m (7 ft) high along the edge. and 2.7 3.0 m (9 10 ft) high at the center. The five legs of the trap were wooden (5.1 x 5.1 cm or 2 x 2 in). Aluminum IFbeams (1.8 m or 6 ft long) connected each outer leg with the center leg at ground level and 2.1 m (7 ft) above the ground. A 25.4-cm or 33-cm (10-in or 13-in) wire-spoked wheel was attached horizontally on a steel rod above the center leg. The wire spoked wheel and the outer legs were all interconnected with soft iron wire to make a sturdy framework, Figure 1. A canvas top, sprayed with black rubber-base paint, was attached around the wire-spoked wheel by a draw string and was stapled to the tour outer legs. To prevent escape of the flies, an outer baffle of green netting (2.6 x I m or 8.5 x 3.3 ft) was sewn to the four edges of the top. Aluminum rods (2.6 m or 8.5 ft long) were placed through hems sewn along the free edges of the outer baffles and were nailed to the outer legs about 1.m i itt) above the ground. Then the vertical edges of the a f, ,"r e FIG. 1. Framework of modified Malaise trap. [I ] Bli"" r ~~ f; ~ai? FIG. 2. Modified Malaise trap with canvas top and net baffles. outer baffles were sewn together. An inner baffle of green netting (2.1 x 1.8 m or 7 x 6 ft) bordered with 5-cm strips of muslin was stapled to a piece of wood nailed to each of the four upper horizontal I beams, Figure 2. A cylindrical no-return collecting cage (25.4 cm or 33 cm diameter and 30.5 cm or 1 ft high) was constructed to sit at the top of each trap on a circular piece of plywood wired to the rim of the wire spoked wheel, Figure 3. The cage had a body of fine mesh wire screen and a plywood top. An inverted funnel of fiberglass screen inside the cage was held in place with a narrow metal strip bolted around the inside of the cage bottom. A circular door was cut in and hinged to the plywood top, and a swing hook was attached to the cage top. The cage was placed on and removed from the trap with a 3-m (10-ft) aluminum rod curved to fit into the swing hook, Figure 4. The four traps were placed in a northeast-southwest row, 0.16 km (0.1 mi) apart, in open pasture adjacent to a wooded area containing a beaver swamp and creek. This area was part of the L. E. Ensminger farm at Gold Hill in Lee County, Alabama, which was known to contain high populations of tabanids. Relative population abundance and seasonal and diurnal activity data were taken by identifying and counting the number of each species of [5] I-iu. J. No-return collecting cage ot neavy-gauge screen wire. horse fly caught in the modified Malaise traps. At the beginning of each work period, the traps were prepared for catching horse flies by lowering and securing the four inner net baffles and by placing a noreturn collecting cage on the top. A pressure gauge or flow-meter' was attached to a CO 2 cylinder at each trap and regulated for a constant flow of 425 liters/h (15 ft'/h), as previous research had indicated that this rate most efficiently attracted tabanids [Knox and Hays (13)]. The cylinders were replaced every two work days. One 22.7 kg (50-lb, net) cylinder regulated to release CO2 at the above rate lasted about 32 hours. Horse flies were attracted to the trap by carbon dioxide released from the cylinder. Immediately after the flies flew into the inner net baffles, they flew upward under the canvas top, crawled through the inverted funnel, and into the no return collecting cage. This trapping phase of the study was conducted from May 22 to October 7, 1970, and from May 11 to October 7, 1971. Additional trapping was conducted with unattended traps for 4 weeks before the start and 1 week after the end of the data collection period, to define more clearly the limits of the active horse fly season. In 1970 traps were operated 1 day per week during the early and late season, i.e., May, September, and October. During June, July, and August 1970, Smith Welding Equipment, Div. of Tescom Corp., Minneapolis, Minn. [6] i 'fi FIG. 4. Complete Malaise trap. Dr. Burnett shows how a rod was used for removing and replacing the no-return collecting cage. and during the entire 1971 season, traps were operated 2 days per week. Trap operation generally corresponded to photoperiod. Trapping operations started about sunrise and ended at sunset. As a result, the daily trapping period was 14 hours per day until late August, when it was shortened to 13 hours per day. In late September the trapping period was shortened to 12 hours per day. During the trapping period, collecting cages were removed at 1-hour intervals and replaced with empty cages. The flies were killed by placing each cage in a plastic bag containing a piece of cotton saturated with chloroform. Dead flies were placed in plastic bags indicating trap number, collection time, and date. Collected flies were stored in a freezer until removal for identification. All flies were identified using Watson's (24) key to the Alabama Tabanidae. While the primary daily collection period occurred during daylight, trap operation was continued throughout the night to detect nocturnal activity of horse flies. For this nocturnal phase however, the traps were not monitored each hour. Instead, collecting cages were installed on the traps at sunset and removed the following morning. [7] RESULTS AND DISCUSSION Relative Abundance The species of adtlt female horse flies collected at Gold Hill, Alabama, during 1970 and 1971 are listed in Table 1. Seasonal abundance for each year is presented as the total catch per year for each species; relative abundance is presented as a percentage of the total seasonal catch. In 1970, 6,332 flies of 31 species were captured in 20 work in 1971, periods of 31 days, or 459 hours of actual collection 19,877 flies of 33 species were captured in 22 work periods of 43 days, time; or 598 hours of actual collection time. In 1970 the species most commonly caught was Tabanus fulvulus Wiedemann, while in 1971 it was T paiidescens Philip. Together TABLE 1. SPECIES OF ADULT FEMALE HORSE FLIES COLLECTED AT GOLD HILL, ALABAMA, MAY -OCTOBER, 1970 AND 1971 Species Number collected 1970 1971 1,794 1,125 793 630 593 262 206 201 127 104 88 74 71 41 27 26 24 23 20 18 15 13 11 10 10 9 8 3 2 2 1 1 4,403 8,668 1,288 976 902 981 167 743 398 143 109 79 69 118 17 15 49 358 11 104 25 41 34 12 67 5 76 6 1 5 2 2 2 1 19,877 Percent of total 1970 1971 28.33 17.76 12.52 9.94 9.36 4.13 3.25 3.17 2.00 1.:64 1.38 1.16 1.12 0.64 0.42 0.41 0.37 0.36 0.31 0.28 0.23 0.20 0.17 0.15 0.15 0.14 0.12 0.04 0.03 0.03 0.01 0.01 22.15 43.60 6.47 4.91 4.53 4.93 0.84 3.73 2.00 0.71 0.54 0.39 0.34 0.59 0.08 0.07 0.24 1.80 0.05 0.52 0.12 0.20 0.17 0.06 0.33 0.02 0.38 0.03 0.01 0.02 0.01 0.01 0.01 0.01 Tabanusfulvulus wiedemann, 1828............ T. pallidescens Philip 1936.................... T. melanocerus wiedemann 1828.............. T lineola Fabricius 1794..................... T petiolatusHine 1917....................... T trimaculatus Palisot de Beauvois 1806......... T sackeni Fairchild 1934..................... T sparus whitney 1879...................... T. nigripeswiedemann 1821.................. T. moderator Stone 1938...................... T sulcifrons Macquart 1855 .................. T. sublongus Stone 1938..................... T. nigrescensPalisot de Beauvois 1809........... T. aranti Hays 1961......................... T. maculipennis Wiedemann 1828............... . T americanus Forster 1771. .................. TfairchildiStone 1938....................... T. pumilus Macquart 1838.................... Leucotabanusannulatus (Say) 1823 .............. T molestus Say 1823........................ . T. gladiatorStone 1935...................... T turbidus Wiedemann 1828 .................. T molestus mixis Philip 1950.................. . T. calens Linnaeus 1758..................... Hybomitra trispila (Wiedemann) 1828............ T atratus Fabricius 1775...................... T. superumentariusWhitney 1879 ....... T coarctatus Stone 1935...................... . T wiedemanni Osten Sacken 1876 ............. Chiorotabanuscrepuscularis(Bequaert) 1926.. T subsimiis Bellardi 1859 .................... T abdominalis Fabricius 1805.................. Whitneyomyia beatifica (Whitney) 1914.......... . H. cincta (Fabricius) 1794..................... T lungiusculus Hine 1907.................... Totals ................................ 6,332 [8] these two species represented about 46 percent of the 1970 catch and about 66 percent of the 1971 catch, and were the most abundant horse flies in the research area. The six most abundant species of horse flies represented about 85 percent of the total seasonal catch each year. Some of the remaining species were quite rare. Some species caught only during 1 of the 2 years were probably present in small numbers during the other year. Seasonal Distribution and Abundance The seasonal distributions of the total horse fly populations for both 1970 and 1971 are presented in Figure 5. The seasonal distributions for populations of each of those species represented by a total catch of more than 10 are presented in Figure 6. In both figures the catch is Mean catch/ day/ work period 1750 150012501000750 500 250 0 1970 1971 250- 5007501000125015001750 3 1017 2431 7 14 21 28 5 12 19 262 9 1623306 13 20274 II September October June July August May , I I I I I I FIG. 5. Seasonal distribution of the total adult female horse fly population at Gold Hill, Alabama, 1970 and 1971. [9] presented as a mean number of flies collected per day for each work period. Horse flies were collected at the research site throughout the trapping period (early May to mid-October). Combined data for all populations, Figure 5, show that the total populations were small in early May but began increasing in late May. As the season progressed, the total populations increased rapidly and peaked during the week of June 28 in 1970, and the week of June 14 in 1971. The greatest number of species was on wing near the seasonal peak both years. Following these peaks, the number of both species and individuals declined slowly until the end of the trapping season, even though a few species did not appear until late August. An analysis of the data on individual species, Figure 6 indicated that few individuals and few species were active during the early weeks of the trapping season. In 1971 T lineola Fabr., T. pumilus Macquart, and T. trimaculatus Palisot de Beauvois were the first species to become active. An accurate determination of early horse fly activity for 1970 was prevented by a later initial trapping date. Most species had short, well-defined flight seasons; however, some species, e.g., T. lineola and T nigripes Wiedemann, were active throughout the entire season. Most species had similar seasonal acti vity peaks in both 1970 and 1971. The order of appearance and disappearance was similar both years. The variation in time of appearance and disappearance was 2 weeks or less for all species. The species active in October in either year were T. atratus Fabr., T. lineola, T. nigripes, T. sackeni Fairchild, T sulcifrons Macquart, and T. gladiator Stone. Diurnal Distribution All species of horse fly had low flight activity from 5:00 to 9:00 a.m. (CST). Total activity increased during the day and usually appeared greatest during the 2 to 3 hours before dark. Data analysis indicated however that the mean catch per hour per trap was fairly uniform in late morning through early evening hours (p < 0.05). The mean catch per hour per trap for 1970 and 1971 combined, for those species represented by a total catch of more than 10, is presented in Fig. 7. Many species, such as T. aranti Hays, T. lineola, T. melanocerus Wiedemann, T. petiolatus Hine, T. pallidescens, and T. trimaculatus, were active throughout the day. Of these species, T. melanocerus had no definite diurnal peak of activity. Tabanus aranti had a mid-morning peak of activity, and T trimaculatus had an early afternoon peak of activity. Tabanus lineola, T. petiolatus, and T. pallidescens had late afternoon activity [10] peaks. Many species, such as T. fairchildi Stone, T gladiator, T. nigripes, T. pumilus, T. sparus Whitney, and T. sublongus Stone, were active mostly in the afternoon and early evening hours. Tabanus molestus Say, T. molestus mixis Philip, T. moderator Stone, and T. turbidus Wiedemann had distinct activity peaks 1 or 2 hours before dark, but also were collected from the traps during the early morning hours. Apparently the morning catch resulted primarily from residual flies remaining under the traps during the night. Mosier and Snyder (17), however, reported flight activity of T turbidus 2 hours after sunrise in Florida. Individuals of this species occasionally were observed flying around the research vehicle between 5:00 and 7:00 a.m. (CST) at Gold Hill. Thus this fly exhibited some early morning activity. Tabanus sackeni Fairchild was active mostly in the early evening but was collected in small numbers throughout the day. Tabanus maculipennis Wiedemann was not collected during the hour before dark. Chlorotabanus crepuscularis (Bequaert) was always crepuscular and was collected only during the hour before dark. Although many of the species were collected at night during the work periods, observations and actual counts indicated that these horse flies were under the traps before dark, and entered the collecting cages before work began the next morning. Additional night work performed on June 24, July 9, August 13, September 13 and 29, 1971, produced catches only the first two nights. Tabanus turbidus was the only horse fly collected during hours of complete darkness. [11] Mean catch/ day / work period Tobonus lrimocu/olus 500-1970 25 1971 25 5 0 1' l I II I I I t I I I I I I I I I 50- Tobonus sporus 25- 0 25- 50 -1 I I I li iI I I I I I, i 3 10 1724 31 7 14 21 28 5 12 19 26 2 9 16233061320 May June July August September Mean catch / day/work period Tobonus mo/es/us mix/s ,.5 0 2.5-I I I I I I I I i I l il I 2.5- Tobonus g/odi/oor 25 5 Tobonus mo/es/us []1970 0 1971 5 1 I I I ' I" I 1 1 I 1 I I I I I I 31I01724317 142128512 19262 May June July 9 1623306 1320274 August 1II I September October FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [12] day! Mean cutch / work period 300 rD 1 1 Tabanus fulvulus 01970 17 200L loo- 10020030040 11u 1 1 1 1 1 14 2128 512 1926 2 310 172431 7 91623 May June July August Mean catch / day/work period 2.5 0 2.5 Tbanus cc/ens 2.5 Tbanus afro/us Tbanus omericanus 2.5 0 2.5 7 1421 28 512 19 26 2 June July W1970 S1971 9 16 23 306 13 20 27 4 August September October 1 FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [13] Meon cotch/ doy/wrk priodTabanus rme/anocerus 100 75--11970 50 25 0 25 50 75 100 I I I I I LZ1971 75 50 25 025507 - 51I Th,,onus lineola I I I I 3 10 1724 317 14 21 28 5 12 19 26 2 9 16 23 30 61320 27 4 September October August July June May 1 Meon cotch/ h~usckn day/work period 20 0 20 -I I I I I 20- Tobonus S1970 sulcifrons 0 El 1971 20 7 14 21 28 5 12 19 26 2 9 1623 30 6132027 411 June July August September October FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [ 14] Mean catch/ Tobonusnirrpes day/work period 15 0 5- 10tI15 10 505101 10 1 1 [ ] 1 1 1 1 1 1 1 1 1 1 1 1 Totbonus arpreacens -Totronus aoperjumeet/Orius 5 0 0W1970 0I1971 5I13 10172431 7 1421 28 512 19262 9 1623 30 613 2027 4 October Jane Jaly August September May 1 Meancatch day/ workperiod IMay Jon Joly AugostI FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [15] Mean catch! day/work period 10o1k 5 0 5110 5, 0 5 OF5- Tabanus aranti L]1970 ~iiiJ1971 i Tabonus fairchi/di A Tabanus moderator 0 5 10 17 24 3 18 7 14 1 28 5 2 19 2 2 9 1 May June July August FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [16] Mean catch! day/work period 25k Tabanus pumius LIII1970 S1971 O- 25 I I I ~i~i~ ~";~ I;~; :;~; ;': . I I I I I I I I I I I I I I I i I I I 1 I I I I I 50 7dbanus p6'tio/67fus 251 7 I- V 50 Iv 3 1017 24 31 I I I I I:::~::::::: 7 14 21 28 5 12 19 26 2 I I I I I 9 162330 6 1320 May June July August September FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [17] Mean catch! day/work Deriod vY 2.5 0 2.5 5 Leucotabonus annulatus Tbonus turbidus 0 5 5 Tbanus rnacu/ipenrns 0 1970 0 LIJ1971 5 3 1017 24 31 71421 28 512 19262 June July May 9 1623 30 August FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [18] Mean catch! day/work period Hybom/tro trispila 1 970 ,197 1 5 ......... oi 5- - I I I I 1- I I I - I I I I I I Tabcnus subon gus 5- 0 5aI Ia I I I I I I IaI aI 1 I I 3 10172431 7 14 2128 5 12 19 26 2 9 1623 30 August May July June FIG. 6. Seasonal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971. [19] Mean catch! Mean hour / trap .02- catch// 0Tabanus afratus .01 .00 Tabanus .03 .02 .01 13 12 11 10 americanus 9 8 7 6 5 4 Hours before dark 3 2 1 N = 192 244 284 264 296 308 316 308 300 292 288 288 288 I .oz C Mean catch! hour / trap Tabanus ro/estus mix/s Hours before dark FIG. 7. Diurnal distribution of spocios of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [20] Mean catch! hour/ trap Tabanus fulvulus 2.5 2.0 1.5.00.50. 0 13 12 Ii I U0 - % 8 b6 f - Hours before dark ~1 C;:zzzz~rl :1 f~s f:~r tt: :"~I LSS;:Sf; .'2(55 :~:~:~:~:~:~ Tobunus melanocerus 13l1211 54 76 109 8 Hours before dark 32 1 FIG. 7. Diurnal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa on page 20 represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [21] Mean hour/trap catch/ Tabonus fairchi/di Tabanus ca/ens Tabanus aranti .X., .0XX Hours before dark Mean hour / trap catch! Tbcinus macu/4oennis .02.00 [f Tobanus gladiator .02 .00 13 121109 7 6 5 Hours before dark F 8 fl l 4 3 2 FIG. 7. Diurnal distribution of species of adult female horse flues collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa on page 20 represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [22] Mean catch! hour! trap Tobanus po/idescens 5.0 4.0 3.0 2.0 1.0_ cs l 0-0-1312 II 10 9 8 7 6 5 4 3 2 Hours before dark Mean catch hour /trap ::.i::~~i .00 . 30Tonus pnirips .20 .10 .00 To bonus nmoliesu .10.20 1312 00 II 10 9 8 7 6 5 4 3 2 Hours before dark FIG. 7. Diurnal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa on page 20 represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [23] Mean catch/ hour/trap Tobonus sporus nHR 1 4 3 2 13 12 II 10 9 8 7 6 5 Hours before dark Tobonus petio/atus Tobonus trimoculatus 13 12 II 109 8 7 6 5 Hours before dark 4 3 2 FIG. 7. Diurnal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa on page 20 represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [24] Mean cc otch! hour!1trap .12 .10 .08 .06 .04 .02 .00 .06 .04 .02 .00 Tab onus sulcifrons ... .04 IV .08 "': ""':':' : t. :::i::.. """ :":" :"' :"":' .s-: :z. ":'"' ""' :: : .... .1.... ":':':" ts: tzr:.' "" '":":" ~.s ""' ""'' t,:2 ""' ..... tl' ~t~ :' ~: ":" :~f~i zti ~:~ ""':' :':':' ":''' : :. ""' xt':' :~ I ""' n HHF. "" ;ulHn H I ~V .08, .06.04.02.00 i C Hou ~s ; rs z-r before ~ t~z X-Xv dark FIG. 7. Diurnal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa on page 20 represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [25] Mean catch/ hour!/trap Leucotc/banus onnulatus Hours before dark FIG. 7. Diurnal distribution of species of adult female horse flies collected at Gold Hill, Alabama, 1970 and 1971 combined. The N values below the abscissa on page 20 represent the number of observations per hour. To obtain the total number of flies collected per hour, multiply N by the mean for the hour. [26] LITERATURE CITED (1) A BBASSIAN-LINTZEN, ROSEMARIE. 1966. Tabanidae (Diptera) of Iran. XII. The seasonal activities of some horsefly species in the plains of Khuzistan (S. W. Iran). Ann. Mag. Nat. Hist. 9 (103/105): 363-74. B LICKLE, R. L. 1959. Observations on the hovering and mating of Tabanus bishoppi Stone (Diptera, Tabanidae). Ann. Entomol. Soc. Am. 52(2): 183-90. FAIRCHILD, G. B. 1942. The seasonal distribution of some Tabanidae (Dipt.) in Panama. Ann. Entomol. Soc. Am. 35: 85-91. GLASGOW, J. P. 1946. The seasonal abundance of blood-sucking flies in a grassed woodland area in central Tanganyika. J. Anim. Ecol. 15(1): 93-103. HADDOW, A. J., AND PHILIP S. CORBET. 1960. Observations on nocturnal activity in some African Tabanidae (Diptera). Roy. Entomol. Soc. (London), Proc. A. 35: 1-5. H ANEC, WILLIAM, AND G. K. BRACKEN. 1964. Seasonal and geographical distribution of Tabanidae (Diptera) in Manitoba based on females captured in traps. Can. Entomol. 96: 1362-9. HARLEY, J. M. B. 1965. Seasonal abundance and diurnal variations in activity of some Stomoxys and Tabanidae in Uganda. Bull. Entomol. Res. 56(2): 31932. HINE, J. S. 1903. Tabanidae of Ohio with a catalogue and bibliography of the species from America north of Mexico. Ohio Acad. Sci. Spec. Papers 5. 63 p. HOFFMAN, R. A. 1963. Species and incidence of Tabanidae (Diptera) in the Mississippi Delta. Ann. Entomol. Soc. Am. 56(5): 624-7. JONES, CALVIN M., AND DARRELL W. ANTHONY. 1964. The Tabanidae (Diptera) of Florida. U. S. Dep. Agr. Tech. Bull. 1295. 85 p. (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) JONES, T. H., AND W. G. BRADLEY. 1923. Observations on Tabanidae (horseflies) in Louisiana. J. Econ. Entomol. 16: 307-12. JUDD, W. W. 1958. Studies of the Bryon Bog in southwestern Ontario. V. Seasonal distribution of horseflies and deerflies (Tabanidae). Can. Entomol. 90(4): 255-6. (13) KNOX, PATRICIA COMPTON, AND KIRBY L. HAYs. 1972. Attraction of Tabanus spp. (Diptera: Tabanidae) to traps baited with carbon dioxide and other chemicals. Environ. Entomol. 1(3): 323-6. LAVIGNE, ROBERT J., MARTIN H. BLOOM, AND WALTER A. NEYS. 1968. Adult behavior of Tabanus reinwardtii and Chrysops fulvaster (Diptera: Tabanidae). Univ. Wyom. Agr. Exp. Sta. Sci. Monog. 12. 37 p. MALAISE, RENE. 1937. A new insect-trap. Entomol. Tidskr. 58: 148-60. (14) (15) (16) MILLER, L. A. 1951. Observations on the bionomics of some northern species of Tabanidae (Diptera). Can. J. Zool. 29(3): 240-63. [27] (17) MOSIER, C. A., AND T. E. SNYDER. 1919. Notes on the seasonal activity of Tabanidae in the lower everglades of Florida. Wash. Entomol. Soc., Proc. 21: 186-96. (18) (19) (20) PECHUMAN, L. L. 1954. Seasonal distribution of some Tennessee Tabanidae (Diptera, Tabanidae). Brooklyn Entomol. Soc., Bull. 45(5): 128-30. ROBERTS, R. H. 1969. Biological studies of Tabanidae: A preliminary study of female tabanids attracted to a bait animal. Mosq. News 29(2): 236-8. SMITH, STEPHEN M., DOUGLAS M. DAVIES, AND VICTOR I. GOLINI. 1970. A contribution to the bionomics of the Tabanidae (Diptera) of Algonquin Park, Ontario: Seasonal distribution, habitat preferences, and biting records. Can. Entomol. 102(11): 1461-73. (21) (22) STONE, ALAN. 1930. The bionomics of some Tabanidae (Diptera). Ann. Entomol. Soc. Am. 23(2): 261-304. THOMPSON, PATRICK H. 1969. Abundance and seasonal distribution of the Tabanidae of the Great Swamp, New Jersey. II. The second year. Ann. Entomol. Soc. Am. 62(6): 1429-33. T WINN, C. R., B. HOCKING, WILLIAM C. M CD UFFIE, AND H. F. C ROSS. 1948. (23) A preliminary account of the biting flies at Churchill, Manitoba. Can. J. Res., D 26: 334-57. (24) WATSON, ROBERT LEE. 1968. The Tabanidae of Alabama and some aspects of their ecology. Ph.D. Dissertation. Auburn Univ. 231 p. Univ. Microfilms Order No. 69-5516. Ann Arbor, Mich. (Unpubl.)