Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-26T10:14:35.103Z Has data issue: false hasContentIssue false

Some Factors affecting Breeding and Oviposition of the Red Locust, Nomadacris septemfasciata (Serv.)

Published online by Cambridge University Press:  10 July 2009

Extract

Observations were made on the red locust, Nomadacris septemfasciata (Serv.), between October 1957 and February 1958 in an area of grassland, six miles long by one mile wide, marked out by beacons and divided lengthwise by a line of beacons down the centre, in the Rukwa Valley of south-west Tanganyika.

One half of the plot had been burnt off completely in the latter part of the dry season; the other half was unburnt and carried in part a four-year accumulation of growth and in part an area of standing grass that had regenerated after a damaging fire during the previous wet season and then, for the most part, flooded. Vegetation profiles were made along the whole length of the plot, and rain gauges, soil thermometers and soil tensiometers were installed at regular intervals along the three lines of beacons. Assessments of the population and distribution of adult locusts within the plot were made from Land-Rover or on foot in mid-October, mid-December (ten days after the onset of the rains) and early in January. A systematic search was made for egg-pods, starting at the end of December, along furrows ploughed down the middle of each of a number of narrow strips mown in the grass in sets near each beacon and sampling equally the burnt and unburnt halves of the plot. The first hoppers were seen on 3rd January, and assessments of hopper populations were carried out four times during January.

The primary object of the work was to study the effect on choice of oviposition site and on incubation success of the type and condition of the grassland (whether burnt during the previous dry season, at an earlier date, or left unburnt) and its possible bearing on control of the species in an outbreak area. Data were also obtained on the conditions of air temperature, soil moisture, soil temperature and rainfall in which eggs are laid and incubated; and the effect of variations in these factors on oviposition and on incubation success was examined.

It was observed that, in the hot, dry conditions of mid-October, adult locusts were completely absent, from the recently burnt-over ground, and were found almost exclusively in that part of the standing grass that had suffered a wet-season burn. By mid-December, the locusts had spread out from the unburnt into the burnt-over zone, where the grass had put out fresh growth, but many were still to be found hi the former, with a concentration along the line of contact with the latter. By early January, the size of the population had been greatly reduced and it was evenly distributed over the whole plot.

The distribution of egg-pods snowed that the locusts had laid almost exclusively in the burnt-over zone, about 50 per cent. being found within 0·1 mile of the line of contact with the unburnt zone.

The hoppers were likewise almost exclusively confined to the burnt-over zone, and with numbers significantly higher in the ¼-mile band next to the contact line than in the band at ¼–½ mile from it. The numbers of hoppers in the unburnt grass was significantly lower than might have been expected from the results of the egg-pod survey, suggesting that survival was lower there than under fresh grass following a dry-season fire. A subsidiary experiment, in which adult locusts were confined in cages placed on the lately burnt-over zone, the early-burnt and unburnt areas, respectively, suggested that, where there was no choice of oviposition site, the greatest number of surviving egg-pods occurred in the first zone, almost as many in the second and about half as many in the third.

During the incubation period, the soil under the unburnt grass was significantly colder, and tended to be moister, to moisten more slowly and to dry out less rapidly than that which had been burnt over. No significant correlation was found between incubation success in the burnt-over zone and total rainfall, mean recorded soil temperature or soil moisture.

It is concluded that, since these observations show that, for oviposition, adults of N. fasciata exhibit a very significant preference for ground that has been burnt over in the previous dry season, the burning of selected strips should lead to the concentration of oviposition and, consequently, of hoppers, thus making chemical control of the latter easier and cheaper.

There was some evidence, also, that when locusts could not move to bare ground, either oviposition or egg-pod survival (or both) were least successful where the grass cover was thickest.

Type
Research Paper
Copyright
Copyright © Cambridge University Press 1959

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Backlund, H. O. (1956). Aspects and successions of some grassland vegetation in the Rukwa Valley, a permanent breeding area of the red locust.—Oikos suppl. 2, 132 pp.Google Scholar
Burnett, G. F. (1951). Field observations on the behaviour of the red locust (Nomadacris septemfasciata Serville) in the solitary phase.—Anti-Locust Bull. no. 8, 36 pp.Google Scholar
Chapman, R. F. (1958). Micro-climate in a locust habitat. (In prep.)Google Scholar
Faure, J. C. (1935). The life history of the red locust (Nomadacris septemfasciata (Serville)).—Bull. Dep. Agric. S. Ajr. no. 144, 32 pp.Google Scholar
Michelmore, A. P. G. (1947). The habits and control of the red locust in out break areas and elsewhere.—Bull. ent. Res. 37 pp. 331379.CrossRefGoogle Scholar
Ramdas, L. A. & Draid, R. K. (1934). Soil temperatures.—Curr. Sci. 3 pp. 266267.Google Scholar
Robertson, I. A. D. (1954). The numbers of eggs in pods of the red locust, Nomadacris septemfasciata (Serville) (Orth. Acrididae).—Ent. mon. Mag. 90 pp. 254255.Google Scholar
Scheepers, C. C., Eyssell, B. J. & Gunn, D. L. (1958). Density distributions of hoppers of the red locust, Nomadacris septemfasciata (Serv.) (Orth. Acrid.), in relation to control by insecticides.—Bull. ent. Res. 49 pp. 467478.CrossRefGoogle Scholar
Scheepers, C. C. & Gunn, D. L. (1958). Enumerating populations of adults of the red locust, Nomadacris septemfasciata (Serville), in its outbreak areas in East and Central Africa.—Bull. ent. Res. 49 pp. 273285.CrossRefGoogle Scholar
Vesey-FitzGerald, D. (1955 a). Applied ecology and indirect control.—Rep. Dir. int. Red Locust Control Serv. 1954 p. 31. (Unpublished.)Google Scholar
Vesey-FitzGerald, D. F. (1955 b). The vegetation of the outbreak areas of the red locust (Nomadacris septemfasciata Serv.) in Tanganyika and Northern Rhodesia.—Anti-Locust Bull. no. 20, 31 pp.Google Scholar
Vesey-FitzGerald, D. F. (1955 c). Birds as predators of the Red Locust (Nomadacris septemfasciata Serv.).—Ostrich 26 pp. 128133.CrossRefGoogle Scholar
Vesey-FitzGerald, D. F. (1957). The effect of fire protection on the vegetation.—Rep. Dir. int. Red Locust Control Serv. 1956 p. 38. (Unpublished.)Google Scholar
Yates, F. (1949). Sampling methods for censuses and surveys.—London, C. Griffin.Google Scholar