Michael Bode's research while affiliated with Queensland University of Technology and other places

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Publications (1)

Figure 3. Probability density of age (in days) of wild Bactrocera tryoni captured during different seasons in 2017-18 from a site in subtropical Australia. Each graph is the fitted age-distribution for the season as estimated using the likelihood function with all possible combinations of reference cohorts. The red line is the survival function of the reference cohort used in the estimation of the likelihood function and the blue curves are agedistribution (L = late, E = early, aut = autumn, win = winter, spr = spring, sum = summer, 17 = 2017 and 18 = 2018).
A pairwise comparison of survival function of five cohorts of adult male Bactrocera tryoni that emerged in the laboratory from field infested fruit (= reference cohorts) collected during different seasons in 2017-18 from a site in subtropical Australia. Bold values indicate significant difference at P < 0.05. In the laboratory flies were held at 27 °C constant temperature and had ad libitum access to water and food.
Survival of wild Bactrocera tryoni males (= captive cohorts) in the laboratory. Flies were collected as adults during different seasons in 2017-18 from a site in subtropical Australia. In the laboratory flies were held at 27 °C constant temperature and had ad libitum access to water and food.
Cumulative survival curves of five cohorts of adult male Bactrocera tryoni that emerged in the laboratory from field infested fruit (= reference cohorts) collected during different seasons in 2017–18 from a site in subtropical Australia. In the laboratory flies were held at 27 °C constant temperature and had ad libitum access to water and food.
Cumulative survival curves of three cohorts of adult female Bactrocera tryoni that emerged in the laboratory from field infested fruit collected during different seasons in 2017–18 from a site in subtropical Australia. In the laboratory flies were held at 27 °C constant temperature and had ad libitum access to water and food.

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A polyphagous, tropical insect herbivore shows strong seasonality in age-structure and longevity independent of temperature and host availability
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June 2021

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107 Reads

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9 Citations

Scientific Reports

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Michael Bode

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Anthony R. Clarke

Bactrocera tryoni is a polyphagous fruit fly that is predicated to have continuous breeding in tropical and subtropical Australia as temperature and hosts are not limiting. Nevertheless, in both rainforest and tropical agricultural systems, the fly shows a distinct seasonal phenology pattern with an autumn decline and a spring emergence. Temperature based population models have limited predictive capacity for this species and so the driver(s) for the observed phenology patterns are unknown. Using a demographic approach, we studied the age-structure of B. tryoni populations in subtropical Australia in an agricultural system, with a focus on times of the year when marked changes in population abundance occur. We found that the age-structure of the population varied with season: summer and autumn populations were composed of mixed-age flies, while late-winter and early-spring populations were composed of old to very old individuals. When held at a constant temperature, the longevity of adult reference cohorts (obtained from field infested fruits) also showed strong seasonality; the adults of spring and early autumn populations were short-lived, while late autumn and late winter adults were long-lived. While still expressing in modified landscapes, the data strongly suggests that B. tryoni has an endogenous mechanism which would have allowed it to cope with changes in the breeding resources available in its endemic monsoonal rainforest habitat, when fruits would have been abundant in the late spring and summer (wet season), and rare or absent during late autumn and winter (dry season).

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Citations (1)

... Similarly, 5-12 years after the B. dorsalis invasion in Mayotte, C. capitata was only found in fruit of Passiflora suberosa, Mimusops comorensis and Capsicum sp.The carrying capacity of the new environment could depend on temporal variations in resource availability. Many studies show a relation between the fruiting period and fruit fly abundance(Abro et al., 2021;Hassani et al., 2016;Tasnin et al., 2021;Theron et al., 2017). Generally, despite a temporary decrease in the population during the season when resources are scarce, the population rises during the fruiting period of the main host plants, especially mango(Bota et al., 2018;Motswagole et al., 2019). ...

Reference:

A study on fruit fly host range reveals the low infestation rate of Bactrocera dorsalis (Tephritidae) in Mayotte
A polyphagous, tropical insect herbivore shows strong seasonality in age-structure and longevity independent of temperature and host availability

Scientific Reports

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Michael Bode

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·

Anthony R. Clarke