Seasonal Changes in Physiological Age Composition of Tabanid (Diptera) Populations in Southern Ontario1

1975 ◽  
Vol 12 (4) ◽  
pp. 453-457 ◽  
Author(s):  
D. A. Troubridge ◽  
D. M. Davies
Keyword(s):  
Seasonal Changes ◽  
Physiological Age ◽  
Age Composition

scholarly journals SEASONAL CHANGES IN THE IMAGO PHYSIOLOGICAL AGE IN THE DERMACENTOR MARGINATUS (ACARI, IXODIDAE) NATURAL POPULATION IN THE CENTRAL CISCAUCASIA

2021 ◽  
pp. 3-8
Author(s):  
E.V. Lazarenko ◽  
◽  
L.I. Shaposhnikova ◽  
N.V. Yermolova ◽  
◽  
...  
Keyword(s):  
Seasonal Changes ◽  
Natural Populations ◽  
Physiological Age ◽  
Observation Site ◽  
Age Composition ◽  
Dermacentor Marginatus ◽  
The Third ◽  
Entire Observation Period ◽  
Ixodes Ticks ◽  
Observation Period

The article discusses the seasonal changes in the age composition (physiological age) of imagoes of Dermacentor marginatus ticks natural populations. To determine the physiological age, we used 1477 hungry imagoes of D. marginatus, collected on a flannel flag, under the conditions of a stationary observation site. During the entire observation period, ticks of the third physiological age prevailed. Wintering imagoes include ticks of third and fourth physiological ages. In April, at the peak of activity, the nucleus of the population is made up of ticks of second and third physiological age. A small part of the population during this period is made up of individuals of fourth physiological age. In May, the percentage of recently activated individuals decreases markedly. In collections of this period, strongly emaciated individuals of fourth physiological age predominate. The summer population of ticks is represented by individuals of the third and fourth physiological ages. Their share is over 90%. Individuals of second physiological age were found by us only in early June and late August. In autumn, the bulk of the population is also represented by individuals of third and fourth physiological ages. Keywords: imagoes, Ixodes ticks, Dermacentor marginatus, Central Ciscaucasia, physiological age, age composition

Seasonal Changes in Population Density and Vertical Distribution of prosobranch veligers in offshore Plankton at Plymouth

1973 ◽  
Vol 53 (3) ◽  
pp. 471-492 ◽  
Author(s):  
Vera Fretter ◽  
D. Shale
Keyword(s):  
Population Density ◽  
Vertical Distribution ◽  
Seasonal Changes ◽  
Littorina Littorea ◽  
Ageing Population ◽  
Age Composition ◽  
Number Of Species ◽  
Lacuna Vincta ◽  
Nassarius Reticulatus ◽  
Inshore Waters

Vertical and horizontal hauls were taken at approximately fortnightly intervals from April 1969 to April 1970 at L 3 (lat. 40° 17.7′ N, long. 4° 11.2′ W) and L 4 (lat. 50° 15′ N, long. 4° 12.5 W). Thirty-two species of prosobranch veliger were present at L 35 these larvae were not as numerous at L 4 and only 26 species were recorded. The number of species was highest in the summer: the number of veligers was highest in February. After mid October both the number of species and the abundance of veligers decreased rapidly and remained low until early February. Veligers of some species occurred later at L 3 and L 4 than in more inshore waters and these were probably individuals carried beyond tidal influences which would normally lead to settlement on the shore. They included Lacuna vincta, Littorina littorea and L. neritoides.Veligers of all ages were found at all depths. At their time of greatest abundance veligers of many species occurred maximally at 5 or 10 m, with a variable decrease towards greater depths and a sudden one towards the surface. This distribution later changed giving a proportionally greater number at greater depth. When numbers were low the larvae scattered through the water column with little or no indication of a preferred depth. An examination of the age composition of veligers of rissoids, Natica alderi, Nassarius reticulatus and Philbertia linearis from certain catches showed that the surface accumulation at the time of abundance was composed of a high percentage of young veligers: in an ageing population there was a higher percentage of larvae, especially the older ones, at greater depths, except for Nassarius reticulatus which consistently showed maximal numbers above 10 m until the larvae became scarce.

A study of the age-composition of populations of Anopheles gambiae Giles and A. funestus Giles in North-Eastern Tanzania

1965 ◽  
Vol 56 (2) ◽  
pp. 237-262 ◽  
Author(s):  
M. T. Gillies ◽  
T. J. Wilkes
Keyword(s):  
Anopheles Gambiae ◽  
Age Groups ◽  
The Other ◽  
Physiological Age ◽  
Gonotrophic Cycle ◽  
Cool Season ◽  
Age Composition ◽  
North Eastern ◽  
Hot Season ◽  
Anopheles Gambiae Giles

Polovodova's technique for determining the physiological age of mosquitos was used in a study in 1962–64 of the age-composition of populations of Anopheles gambiae Giles and A. funestus Giles resting in houses in two areas of Tanzania. One area was around Muheza, 25 miles from the coast, where the climate is humid and equable, and the other was around Gonja, 80 miles inland, where hardly any rain falls for five months of the year.It was found that the age-composition was almost identical in populations of A. gambiae and A. funestus at Muheza, about 20 and 23 per cent., respectively, being 3-parous and older and 1 per cent. 7-parous and older in both species. At Gonja, the population of A. gambiae was much younger, 14 per cent, being 3-parous and older and only 0·3 per cent. 7-parous and older. The oldest mosquitos found at Muheza included one 12-parous female of A. gambiae and one female of A. funestus believed to have laid eggs 14 times. No examples of A. gambiae older than 8-parous were found at Gonja.Dissections to determine the condition of the ovariolar sacs in A. gambiae at Gonja showed that in 87 per cent, of freshly fed parous females an interval of at least 24 hours had occurred since oviposition. At Muheza, 72 per cent, of individuals of this species in the cool season and 52 per cent, in the hot season were in a similar condition.Marking and recapturing experiments were carried out with females of A. gambiae in order to be able to correlate calendar age with physiological age. The oldest recaptured was 34 days old and was found to have laid eggs 10 times. From data on 60 recaptures, it was concluded that, although there was some irregularity, the first gonotrophic cycle lasted 3–4 days and later cycles 3 days.Age-specific sporozoite rates in A. gambiae rose from 4·1 per cent, for 3-parous to 32 per cent, for 7-parous and older females, and in A. funestus from 3·2 per cent, for 3-parous to 30 per cent, for 7-parous and older females. Most of the infected 3-parous females were gravid, indicating that few were infective at the beginning of the fourth cycle. On this account it was concluded that some 80 per cent, of malaria infections were transmitted in the fifth, sixth and seventh cycles.Analysis of the distribution of age-groups indicated that both A. gambiae and A. funestus showed a deficiency of nulliparous females, presumably because greater numbers of this group rested outside houses. From the second to seventh cycles the proportions of successive age-groups in both species at Muheza declined regularly at a rate corresponding to a mortality of 37·8 per cent, per cycle for A. gambiae and 38·6 per cent, for A. funestus, or 14·6 and 15·0 per cent, per day, respectively. Beyond this age the mortality was considerably higher. At Gonja, the population of A. gambiae declined at a rate corresponding to a mortality of 51·5 per cent, per cycle for the second to sixth cycles, or 20·9 per cent, per day. Above this age, the mortality was estimated to be higher still.From the regression of infectivity on age it was estimated that 6·8 and 6·1 per cent, of A. gambiae and A. funestus, respectively, became infected at each blood-meal.These findings are discussed in the light of current epidemiological theory.

scholarly journals Use of the truck trap for the survey of mosquito population and the physiological age composition

1969 ◽  
Vol 20 (2) ◽  
pp. 76-80 ◽  
Author(s):  
Yasuyoshi Shimizu ◽  
Mitsuo Takahashi ◽  
Sadao Yabe
Keyword(s):  
Mosquito Population ◽  
Physiological Age ◽  
Age Composition

Foliar Absorption in Prunus domestica L. I. Nature and Development of the Surface Wax Barrier

1978 ◽  
Vol 5 (6) ◽  
pp. 749 ◽  
Author(s):  
DR Leece
Keyword(s):  
Seasonal Changes ◽  
Guard Cells ◽  
Physiological Age ◽  
Spray Application ◽  
Prunus Domestica ◽  
Abaxial Surface ◽  
Foliar Absorption ◽  
Surface Wax ◽  
Leaf Surfaces ◽  
Surface Waxes

Surface wax concentration, distribution, ultrastructure and wettability, as affected by developmental temperature, physiological age and seasonal changes, were studied on leaves of Prunus domestica. Surface waxes covered both leaf surfaces in an amorphous sheet, which extended over the guard cells on the abaxial surface. This sheet may have been thin or discontinuous above adaxial anticlinal walls. A secondary structure of wax ridges was superimposed on the amorphous sheet. Neither surface was readily wetted by water or by solutions of standard organic surfactants. The critical abaxial surface tension was estimated as 22-25 mNm-1 by Zisman plot, confirming that close-packed, oriented, methyl groups are exposed at the wax surface. Surface wax concentration was inversely proportional to temperature during leaf development. At any time, surface waxes differed little among leaves of different physiological ages, but wax concentration increased during the season on leaves of similar physiological age reaching a maximum on the abaxial surface in mid-summer and thereafter remaining constant. Results are discussed in terms of polar pathways through the cuticle, stomatal penetration and spray application strategies.

Seasonal and diurnal variations in physiological age and trypanosome infection rate of females of Glossina pallidipes Aust., G. palpalis fuscipes Newst. and G. brevipalpis Newst

1966 ◽  
Vol 56 (4) ◽  
pp. 595-614 ◽  
Author(s):  
J. M. B. Harley
Keyword(s):  
Infection Rate ◽  
Glossina Pallidipes ◽  
Early Morning ◽  
Physiological Age ◽  
Infection Rates ◽  
Age Composition ◽  
Seasonal And Diurnal Variations ◽  
Late Evening ◽  
The Mean ◽  
Trypanosome Infection Rate

A series of 24-hr. catches of Glossina from bait-oxen was carried out during 16 months in 1962–63 at Lugala, Uganda, where G. pallidipes Aust., G. palpalis fuscipes Newst. and G. brevipalpis Newst. occur. Female flies were dissected to determine their physiological age and the presence or absence of trypanosomes. Five age-categories were distinguished, depending on whether a fly had ovulated 0, 1, 2, 3 or more (4 + ) times. Flies remained in each of the first four categories for about 11 days and the fifth therefore comprised those over 40–50 days old. Trypanosome infections were classified as brucei-type, vivax-iype or congolense-type (i.e., attributable to trypanosomes of the groups of Trypanosoma brucei, T. vivax and T. congolense) according to the sites in which they were found.In all three species of Glossina, vivax-tjpe infections were commonest and alone showed seasonal fluctuations in incidence. Infections of the brucei-type were rare. The total infection rate (all types) in G. pallidipes and G. palpalis fuscipes was highest in or immediately after months of greatest rainfall and relatively lower in dry months; the highest infection rates in G. brevipalpis occurred a month later than those of the other two species. Over 80 per cent, of infections in all three were found in category 4+ flies, the percentage of which in the catches varied in much the same way as the total infection rate, suggesting not only that the flies live longest during wet periods but also that fluctuations of infection rate are largely due to changes in mean age. The regression of total infection rate on percentage of category 4 + flies was significant for G. palpalis fuscipes over 14 months, and for G. pallidipes over 12 months, but insignificant for G. brevipalpis.The age-composition of catches of G. pallidipes and G. brevipalpis but not G. palpalis fuscipes varied during the day. In G. pallidipes, the percentage of older flies was higher in the middle of the day than in the early morning and late evening, and these contrasts were reflected in the infection rate, which was highest in samples taken in the middle of the day. In G. brevipalpis, the percentage of oldier flies and also the infection rate were lower during the night than during the day.Estimates were made of the mean number of bites by infected females that would be received by one ox in one day. The number varied from month to month, with peaks shortly after periods of high rainfall, mainly as a result of changes in fly density and relatively little as a result of changes in infection rate. G. pallidipes, the most numerous species, was responsible for most of the potentially infective bites.

Lake Use by Wild Anadromous Atlantic Salmon, Salmo salar, as an Index of Subsequent Adult Abundance

1986 ◽  
Vol 43 (1) ◽  
pp. 2-11 ◽  
Author(s):  
P. M. Ryan
Keyword(s):  
Atlantic Salmon ◽  
Salmo Salar ◽  
Seasonal Changes ◽  
Catch Per Unit Effort ◽  
Age Composition ◽  
Atlantic Salmon Salmo Salar ◽  
Spawning Areas ◽  
Population Sizes ◽  
Standing Waters ◽  
Adult Abundance

Atlantic salmon, Salmo salar, were censused each spring and fall for 5 or 6 yr in two lakes at the headwaters of the Gander River, Newfoundland. Density, biomass, and age varied seasonally and annually, ranging from 5.2 to 78.7 fish∙ha−1, 0.2 to 3.4 kg∙ha−1, and 1 to 7 yr, respectively. Seasonal changes in age composition were used to calculate net numbers and ages of fish moving into and out of the lakes. Population sizes typically increased from fall to spring as young fish moved into the lakes from downstream spawning areas and decreased from spring to fall as older fish moved downstream. The calculated net number of spring to fall emigrants over 6 yr was positively correlated (r = 0.835) with adult abundance (catch per unit effort) in the recreational fishery 1 yr later. The varying modal age of these emigrants was identical to the modal freshwater age of returning adults in each of four comparable years. Censusing of young Atlantic salmon in standing waters can be used to monitor smolt production and assist in prediction of the subsequent abundance of sea-run adults.

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