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1.
Paul A. Faure James H. Fullard Robert M. R. Barclay 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1990,166(6):843-849
1. | Most studies examining interactions between insectivorous bats and tympanate prey use the echolocation calls of aerially-feeding bats in their analyses. We examined the auditory responses of noctuid (Eurois astricta) and notodontid (Pheosia rimosa) moth to the echolocation call characteristics of a gleaning insectivorous bat, Myotis evotis. |
2. | While gleaning, M. Evotis used short duration (mean ± SD = 0.66 ± 0.28 ms, Table 2), high frequency, FM calls (FM sweep = 80 – 37 kHz) of relatively low intensity (77.3 + 2.9, –4.2 dB SPL). Call peak frequency was 52.2 kHz with most of the energy above 50 kHz (Fig. 1). |
3. | Echolocation was not required for prey detection or capture as calls were emitted during only 50% of hovers and 59% of attacks. When echolocation was used, bats ceased calling 324.7 (±200.4) ms before attacking (Fig. 2), probably using prey-generated sounds to locate fluttering moths. Mean call repetition rate during gleaning attacks was 21.7 (±15.5) calls/s and feeding buzzes were never recorded. |
4. | Eurois astricta and P. rimosa are typical of most tympanate moths having ears with BFs between 20 and 40 kHz (Fig. 3); apparently tuned to the echolocation calls of aerially-feeding bats. The ears of both species respond poorly to the high frequency, short duration, faint stimuli representing the echolocation calls of gleaning M. evotis (Figs. 4–6). |
5. | Our results demonstrate that tympanate moths, and potentially other nocturnal insects, are unable to detect the echolocation calls typical of gleaning bats and thus are particularly susceptible to predation. |
2.
The moth,Pterolonche inspersa (Staudinger) (Lepidoptera: Pterolonchidae), is widely distributed in southern Europe, north Africa, Turkey and the former Soviet Union. It occurs in both thick and scattered stands of knapweeds in disturbed sites, usually on sandy and/or stony soil. Larvae bore in the roots of diffuse and spotted knapweeds (Centaurea diffusa De Lamarck andC. maculosa De Lamarck). There is one generation per year in northern Greece, and larvae feed in the roots for about 11 months during the growing season (August–September, to the following July–August). In the laboratory garden, emergence took place between the second half of July and the end of August, with peak emergence during mid August. In the field, adults were observed from early to late July. Female moths oviposited on rosettes during the first ten days of July and continued through the end of July. Eggs were laid singly or in groups of five or six, firmly attached to the leaves of the host plant. In the laboratory, females mated within 24 hours of emergence and the preoviposition period lasted 2.6±0.8 days. The oviposition period lasted 7.4±2.2 days and the average number of eggs per female was 142.2±59.2. The incubation period was 12±4.7 days; the pupal stage lasted 14.7±2.4 days; and females lived 15.8±2.4 days, while males lived 10.7±1.4 days. First instar larvae failed to survive on economically important Compositae in the generaCynara L.,Helianthus L.,Zinnia L. andCalendula L. (Dunnet al., 1989). 相似文献
3.
Male, female, pupa, larva and egg of a new genus and species of Gracillariidae (Gracillariinae), Spinivalva gaucha Moreira and Vargas from southern Brazil are described and illustrated with the aid of optical and scanning electron microscopy. A preliminary analysis of mitochondrial DNA sequences including members of related lineages is also provided. The immature stages are associated with Passiflora actinia, Passiflora misera and Passiflora suberosa (Passifloraceae), and build mines on the adaxial leaf surface. Initially the mines are serpentine in shape, but later in larval ontogeny become a blotch type. Although the larvae are hypermetamorphic as in other Gracillariidae, there is no sap-feeding instar in Spinivalva gaucha; the larva feeds on the palisade parenchyma, thus producing granular frass during all instars. Pupation occurs outside the mine; prior to pupating, the larva excretes numerous bubbles that are placed in rows on the lateral margins of the cocoon external surface. This is the second genus of gracillariid moth described for the Atlantic Rain Forest, and the second gracillariid species known to be associated with Passifloraceae. 相似文献
4.
The species Hellinsia jordanica Ustjuzhanin & Kovtunovich sp. n. is newly described from Jordan.http://www.zoobank.org/urn:lsid:zoobank.org:pub:EED698C9-1943-41BC-A503-13A2128A62C5 相似文献
5.
冬虫夏草菌是珍稀濒危名贵中药材冬虫夏草的无性型菌种,是侵染蝠蛾幼虫的唯一菌种,其侵染后形成名贵中药材冬虫夏草。冬虫夏草菌在不同营养及条件下生长形态不同,主要有丝状体和菌球体两种生长形态。冬虫夏草菌丝状菌体能够侵染蝠蛾幼虫,有可能作为一种新的接种体被广泛应用;但丝状菌体对营养要求苛刻、生长缓慢、菌丝体得率低的特点,阻碍了冬虫夏草菌丝状菌体作为侵染蝠蛾幼虫的接种体的开发及应用,从而阻碍了冬虫夏草人工培殖产业化的进程。为了提高冬虫夏草菌丝状菌体的生物表达量,本文对营养及培养条件进行了优化研究,得出了最佳条件为:葡萄糖质量浓度40 g/L、酵母粉质量浓度65 g/L、培养温度17℃、MgSO_4质量浓度3 g/L、KH_2PO_4质量浓度1.5 g/L、培养时间12 d,按最优培养条件,冬虫夏草菌丝状菌体干重得率15.67 g/L,为下一步新的接种体的制备提供菌源保障。 相似文献
6.
7.
Energetic cost of hovering flight in nectar-feeding bats (Phyllostomidae: Glossophaginae) and its scaling in moths, birds and bats 总被引:2,自引:0,他引:2
Voigt CC Winter Y 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1999,169(1):38-48
Three groups of specialist nectar-feeders covering a continuous size range from insects, birds and bats have evolved the
ability for hovering flight. Among birds and bats these groups generally comprise small species, suggesting a relationship
between hovering ability and size. In this study we established the scaling relationship of hovering power with body mass
for nectar-feeding glossophagine bats (Phyllostomidae). Employing both standard and fast-response respirometry, we determined
rates of gas exchange in Hylonycteris underwoodi (7 g) and Choeronycteris mexicana (13–18 g) during hover-feeding flights at an artificial flower that served as a respirometric mask to estimate metabolic
power input. The O2 uptake rate (V˙
o2) in ml g−1 h−1 (and derived power input) was 27.3 (1.12 W or 160 W kg−1) in 7-g Hylonycteris and 27.3 (2.63 W or 160 W kg−1) in 16.5-g Choeronycteris and thus consistent with measurements in 11.9-g Glossophagasoricina (158 W kg−1, Winter 1998). V˙
o2 at the onset of hovering was also used to estimate power during forward flight, because after a transition from level forward
to hovering flight gas exchange rates initially still reflect forward flight rates. V˙
o2 during short hovering events (<1.5 s) was 19.0 ml g−1 h−1 (1.8 W) in 16-g Choeronycteris, which was not significantly different from a previous, indirect estimate of the cost of level forward flight (2.1 W, Winter
and von Helversen 1998). Our estimates suggest that power input during hovering flight P
h
(W) increased with body mass M (kg) within 13–18-g Choeronycteris (n = 4) as P
h
= 3544 (±2057 SE) M
1.76 (±0.21 SE) and between different glossophagine bat species (n = 3) as P
h
= 128 (±2.4 SE) M
0.95 (±0.034 SE). The slopes of three scaling functions for flight power (hovering, level forward flight at intermediate speed and submaximal
flight power) indicate that: 1. The relationship between flight power to flight speed may change with body mass in the 6–30-g
bats from a J- towards a U-shaped curve. 2. A metabolic constraint (hovering flight power equal maximal flight power) may
influence the upper size limit of 30–35 g for this group of flower specialists.
Mass-specific power input (W kg−1) during hovering flight appeared constant with regard to body size (for the mass ranges considered), but differed significantly
(P < 0.001) between groups. Group means were 393 W kg−1 (sphingid moths), 261 W kg−1 (hummingbirds) and 159 W kg−1 (glossophagine bats). Thus, glossophagine bats expend the least metabolic power per unit of body mass supported during hovering
flight. At a metabolic power input of 1.1 W a glossophagine bat can generate the lift forces necessary for balancing 7 g against
gravitation, whereas a hummingbird can support 4 g and a sphingid moth only 3 g of body mass with the same amount of metabolic
energy. These differences in power input were not fully explained by differences in induced power output estimated from Rankine-Froude
momentum-jet theory.
Accepted: 10 November 1998 相似文献
8.
In the presence of predators, animals may reduce or alter theirmating activities. There has been little experimental studyof whether mating behavior varies with the level of predationrisk. Two species of moths, Pseudaletia unipuncta (Noctuidae)and Ostrinia nubilalis (Pyralidae), significantly reduced theirmate-seeking behavior under high levels of simulated predationrisk. Male moths aborted upwind flight in a pheromone plume,and females stopped releasing pheromone in response to soundssimulating the echolocation calls of bats. For O. nubilalis,but not for P. unipuncta, the response varied significantlywith the level of predation risk. Interspecific differencesin behavioral responses likely reflect differences in physiologicalauditory sensitivity and/or behavioral thresholds. Female behavioralresponses to sounds simulating the calls of bats that gleantheir prey from surfaces were significantly weaker than theirresponses to sounds resembling the calls of aerially hawkingbats; these results support the neurophysiological data thatthe calls of gleaning bats are relatively inaudible to moths.This study indicates that some animals can modify their reproductiveactivities in response to auditory cues from predators. 相似文献
9.
10.
Anders Forsman Per-Eric Betzholtz Markus Franzén 《Proceedings. Biological sciences / The Royal Society》2015,282(1808)
Theory and recent reviews state that greater genetic and phenotypic variation should be beneficial for population abundance and stability. Experimental evaluations of this prediction are rare, of short duration and conducted under controlled environmental settings. The question whether greater diversity in functionally important traits stabilizes populations under more complex ecological conditions in the wild has not been systematically evaluated. Moths are mainly nocturnal, with a large variation in colour patterns among species, and constitute an important food source for many types of organisms. Here, we report the results of a long-term (2003–2013) monitoring study of 115 100 noctuid moths from 246 species. Analysis of time-series data provide rare evidence that species with higher levels of inter-individual variation in colour pattern have higher average abundances and undergo smaller between-year fluctuations compared with species having less variable colour patterns. The signature of interspecific temporal synchronization of abundance fluctuations was weak, suggesting that the dynamics were driven by species-specific biotic interactions rather than by some common, density-independent factor(s). We conclude that individual variation in colour patterns dampens population abundance fluctuations, and suggest that this may partly reflect that colour pattern polymorphism provides protection from visually oriented predators and parasitoids. 相似文献