X. Z. He

Host Age Preference Behavior in Aphidius ervi Haliday (Hymenoptera: Aphidiidae)

Many parasitoid species have preference for certain stages of hosts to parasitize but the underlying behavioral mechanisms of such preference are still poorly understood, making it difficult to evaluate host-parasitoid interactions and their effects on the success of biological control programs. Here, we report our work on a parasitoid Aphidius ervi Haliday on the pea aphid Acyrthosiphon pisum (Harris). We show that with the increase of host age, female parasitoids are more likely to encounter and to attack their hosts but the hosts develop increasingly greater defensive capabilities. Encounter almost always triggers attack attempt; however, increasing attack attempts do not proportionally lead to ovipositor probings and increasing ovipositor probings do not proportionally translate into ovipositions. These asymmetric responses may be interpreted as that A. ervi females prefer to parasitize older aphids for higher fitness return but those aphids can better defend themselves, and as a consequence, A. ervi females may achieve the highest gain by attacking aphids of intermediate ages. We suggest that A. ervi females forage in a manner consistent with the optimal foraging theory, trading off host handling time with fitness returns.

Mate Location and Recognition in Glenea cantor (Fabr.) (Coleoptera: Cerambycidae: Lamiinae): Roles of Host Plant Health, Female Sex Pheromone, and Vision

Abstract Glenea cantor (Fabricius) is an important pest of kapok trees [Bombax ceiba L. = Gossampinus malabaricus (DC.) Merr.] in southern China and Vietnam, and its adults are diurnally active. We carried out both field and laboratory experiments to examine the mechanisms that brought G. cantor sexes together from a long distance and facilitated mate location and recognition in a close range. Long-range sex pheromones are not involved in mate location. Mutual attraction of sexes to weakened kapok trees where adult feeding, mating, and oviposition occur plays the key role in mate location from a long distance. In a close range, vision and a female sex pheromone that operates over a short distance (3–3.5 cm) and/or by contact are major cues males use for mate location and recognition. Males seem to use combined chemical and visual cues to achieve mating. Male antennae, particularly the terminal five segments, are critical for males to detect and recognize females. Removal of male palpi has no significant effect on mate location and recognition by males.

Effect of day length on development and reproductive diapause in Nysius huttoni White (Heteroptera, Lygaeidae)

Abstract:  Nysius huttoni White is endemic to New Zealand and an important pest of wheat and brassica crops. To provide critical information for pest forecast, management and quarantine inspection, we investigated the effect of day length on the growth, development and reproductive diapause of this pest under a series of photoperiodic regimes: 16 : 8, 14 : 10, 12 : 12 and 10 : 14 h [light : dark (L : D)]. Long day lengths [16 : 8 and 14 : 10 h (L : D)] promote a continuous lifecycle while short day lengths [12 : 12 and 10 : 14 h (L : D)] slow up the growth and development, prolong the pre‐mating period, and induce the reproductive diapause. The absence of oviposition for approximately 30 days is recognized as the criterion for N. huttoni reproductive diapause definition. When all life stages are kept under the short day length conditions, only 60–73% of females enter reproductive diapause; if the exposure to short day lengths starts in late instar nymphs, 100% of females enter reproductive diapause. If only adults experience short day lengths, does diapause incidence fall in between, with up to 26% of females laying a few eggs before entering diapause. The critical photoperiod for the induction of reproductive diapause falls between 13.3 : 10.7 and 13.5 : 10.5 h.

Host stage preference and reproductive fitness of Aphidius eadyi (Hymenoptera: Aphidiidae) on Acyrthosiphon pisum (Hemiptera: Aphididae)

Abstract Host stage preference by Aphidius eadyi StarýFebGonzález & Hall on pea aphid, Acyrthosiphon pisum (Harris), and its effects on the reproductive fitness of A. eadyi, were studied in the laboratory at 20 ± 1°C and RH 60–70% with a photoperiod of 16 h light: 8 h dark. Aphidius eadyi females accepted aphids of all stages but preferred fourth in‐star nymphs and adults for oviposition. Females developed increasingly faster with the increase of host stages, and males developed faster than females in all host stages. The sex ratio of resulting parasitoids was close to 1:1 from all host stages. The egg load and body size of A. eadyi progeny at emergence increased with increasing host stage at the time of parasitisation. The host stage had nonlinear relationships with the number of eggs laid and aphids parasitised by A. eadyi, and the body size of its resulting progeny. Both host stage and body size of resulting parasitoid progeny affected the egg load of newly emerged parasitoids but the latter had more effect. The fourth instar aphids appeared to be the most appropriate hosts for the mass‐rearing programme because they gave the best fitness return for the parasitoids. The field release of parasitoids may be better timed when fourth instar aphids are the most abundant because aphids parasitised at this stage produce few progeny.

Investigation of herbicides tolerated by Stevia rebaudiana crops

Abstract A pot trial and two field trials evaluate the safety to stevia plants of 25 herbicides, many of which have been used for selective control in other Asteraceae crops. Pre-emergence herbicides that show potential for use in transplanted stevia include trifluralin, pendimethalin, oryzalin, bromacil, terbacil, linuron, methabenzthiazuron and alachlor. Post-emergence treatments that are tolerated reasonably well by stevia include many of the herbicides listed above plus clethodim, haloxyfop, propyzamide, thifensulfuron, flumetsulam and pyridate. Other post-emergence herbicides that cause some crop damage but may merit further research include bentazone, ethofumesate, MCPB, picolinafen, chloridazon and metribuzin. Terbacil and bromacil are the most effective herbicides for weed control, although some crop damage did occur. Controlling weeds through frequent hand-weeding allowed a 30-fold increase in stevia production in one trial, although the best result obtained by herbicides was a 19-fold increase using bromacil immediately before transplanting stevia.

Phenological Dynamics of Dasineura mali (Diptera: Cecidomyiidae) and Its Parasitoid Platygaster demades (Hymenoptera: Platygasteridae) in Apple Orchards

ABSTRACT The midge Dasineura mali Kieffer (Diptera: Cecidomyiidae) is an important pest of apple (Malus domestica Borkh.) and a potential fresh fruit contaminant, causing quarantine concerns. The phenological dynamics of D. mali and its egg parasitoid Platygaster demades Walker (Hymenoptera: Platygasteridae) were studied in the field in Palmerston North, New Zealand, for 2 yr. Both shoot infestation rate by D. mali and D. mali density per shoot sharply increased in the second generation, reaching ≈65% and 100–200 eggs, respectively. However, although the infestation rate in the third generation remained as high as in the second generation, the pest density per shoot significantly decreased to 40–60 eggs in the third generation. In the fourth generation, both infestation rate and pest density per shoot decreased to ≈30% and 10 eggs. Due to the simultaneous decline of the apple shoot number and D. mali density in the third and fourth D. mali generations, the absolute number of D. mali in the orchard also has declined proportionally during the same period. The parasitism and superparasitism rates significantly increased as the season progressed, from 45 to 55 and 37% in the first generation to 87 and 82% in the fourth generation, respectively. Our results suggest that P. demades contributes to the continuous decline of D. mali numbers in the field; it is a good searcher, particularly when its hosts become increasingly scarcer over the season, and it avoids overshooting the host population later in the season by increasing superparasitism. The frequency of P. demades aestivation increases from late spring to midsummer and then decreases during the late summer and early autumn. Although the emergence of P. demades was ≈2 to 3 wk behind that of D. mali in each generation, the increasing parasitism rates from the first to the fourth generations indicate that P. demades is synchronized with D. mali in the field.

Biased sex ratio and low population density increase male mating success in the bug Nysius huttoni (Heteroptera: Lygaeidae)

Demographic factors such as operational sex ratio (OSR) and local population density (LPD) are temporally and spatially dynamic in the natural environment but the influence of these variables on male mating success and the mechanisms behind it are still poorly understood and highly controversial. Here, we manipulated the OSR and LPD of a seed bug, Nysius huttoni, and carried out a series of mating trials to test how these variables affected male mating success. The two demographic factors had no significant interactions, suggesting that they affect male mating success independently in N. huttoni. In this species male mating success was significantly higher in both male- and female-biased OSR than in even OSR. It is suggested that, in male-biased OSR, the increased intensity of competition and interference does not result in lower male mating success; rather, males may make more effort in courting and females may have more chance to encounter better males, resulting in higher male mating success. In female-biased OSR, females may become less choosy and less likely to reject male mating attempt, leading to the higher male mating success. Lower male mating success in N. huttoni in high LPD may be due to increased interference between males and/or delayed female receptiveness for mating. OSR had a stronger effect on male mating success than LPD in N. huttoni, suggesting that OSR and LPD affect mating success in different ways and intensities.

Development of a Strategy for Selective Collection of a Parasitoid Attacking One Member of a Large Herbivore Guild

Abstract Selectively collecting a single natural enemy species that parasitizes one member of a guild of herbivores that attack the same host plants can be a challenging problem during development of biological control programs. We present here a successful strategy for the collection of a strain of the egg parasitoid Avetianella longoi Siscaro (Hymenoptera: Encyrtidae), that parasitizes eggs of the longhorned borer Phoracantha recurva Newman (Coleoptera: Cerambycidae). This cerambycid is one member of a large guild of woodborers that simultaneously infest dying and fallen Eucalyptus in Australia, and it has become a major pest of Eucalyptus in many areas of the world where Eucalyptus has been introduced. Adult P. recurva of both sexes were caged on freshly cut Eucalyptus logs, and the resulting egg masses were marked and then left exposed to natural parasitization in the field. Parasitized egg masses were then harvested and held in the laboratory until adult parasitoids emerged. Parasitoids were identified as A. longoi by morphological comparisons with reference specimens, and with molecular markers. This strain of A. longoi readily accepted and had high survival rates in eggs of P. recurva. In contrast, the strain of A. longoi that has been used for biological control of P. semipunctata in California since the 1990s strongly prefers eggs of eucalyptus longhorned borer, Phoracantha semipunctata (F.) (Coleoptera: Cerambycidae), and has relatively low rates of survival to adulthood in eggs of P. recurva. The causes of these behavioral and physiological differences between the two strains are not yet known.

Trade-Off Between Fitness Gain and Cost Determines Profitability of a Peach Aphid Parasitoid

Abstract Aphidius colemani (Viereck) (Hymenoptera: Aphidiidae) is commercially produced and utilized for biological control of peach aphid Myzus persicae (Sulzer) (Hemiptera: Aphididae) on greenhouse crops in many countries. To provide knowledge for the evaluation of parasitoid–host interactions and development of effective mass rearing programs, we investigated how and why host age or size affected fitness gain in A. colemani. We show that the parasitoid was significantly more likely to encounter larger hosts and that an encounter almost always triggered an attack attempt. However, the attack attempt did not proportionally translate into oviposition because larger aphids had greater ability to defend themselves and the parasitoid spent more time in handling larger aphids. The host age at parasitization had no effect on emergence rates and sex ratio of parasitoid progeny, suggesting that pupae and larvae have similar survival rate in hosts of different ages and/or the parasitoid females do not adjust sex allocation based on host size. When parasitizing mid-aged hosts, the parasitoid gained maximum fitness for their progeny in developmental period, body size, and parasitism. Taking all findings together, we suggest that parasitizing mid-aged green peach aphid nymphs is most profitable for A. colemani.

Female Reproductive Fitness Declines with Increasing Male Density in the Polyandrous Weevil Sitophilus oryzae

The effect of male density on female reproductive fitness is still poorly understood in many insect species. Here we examined how male density influenced female mating behaviour, fecundity, longevity and damage to the genital tract in Sitophilus oryzae (L.) (Coleoptera: Curculionidae), an important pest of whole grains worldwide. We show that with increasing male density, (1) both male mate competition and female copulation duration significantly increased and (2) female fecundity, longevity and feeding time significantly decreased. Dissection indicates that the backward pointing spines on the reversed internal sac of male genitalia may grip and damage the female genital tracts. These results suggest that longer copulation and more frequent matings under higher male densities reduce the time for feeding and oviposition and increase the damage to female genital tracts. We conclude that the decreased female reproductive fitness under high male densities is most likely caused by a combination of the decreased feeding and oviposition time and increased damage to female genital tracts.