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1.
KENNETH WILSON 《Ecological Entomology》1988,13(1):107-118
ABSTRACT.
- 1 Previous work has shown that female Callosobruchus maculatus (F.) (Coleoptera: Bruchidae) can accurately assess the number of eggs on a seed and use this information to produce a near uniform distribution of egg-loads, so minimizing larval competition within hosts.
- 2 The decision to lay on a particular seed may be based on one of two possible rules: (i) a‘relative’rule, which compares the number of eggs on the present seed with that on previously encountered seeds; and (ii) an‘absolute’rule, which takes into account the current egg-load alone.
- 3 This paper describes an experimental study of oviposition behaviour which concludes that an absolute measure of egg-load probably determines egg-laying decisions. The implications of this result are discussed.
2.
《Basic and Applied Ecology》2014,15(7):581-589
Most seed predation studies focus on either pre- or post-dispersal predation and may therefore underestimate the role of predation in regulating plant populations. We therefore estimated total seed predation of an invasive tree, mesquite (Leguminoseae: Prosopis spp.), by examining the entire seed pool from tree to seed bank. The spatio-temporal dynamics of total seed predation was examined by sampling across its Australian distribution and through time. The main predator was a host-specialist multivoltine beetle, Algarobius prosopis L. (Bruchidae), previously introduced as a biocontrol agent. Seed predation exceeded 20% in all seed stages (in pods on and off the tree, and seeds within woody endocarps (capsules) and free seeds on and in the ground) but was consistently highest in capsules on the ground (up to 90%). Pre-dispersal predation contributed little. Total seed predation rates were primarily determined by predation rates on the most persistent seed stage, in this case fallen pods if only pods are considered and seeds in capsules for the total seed pool. This pattern was consistent across the surveyed taxa, regions, years and seasonally. Predation rate was relatively unaffected by seed density, potentially because densities were always low (<150 seeds m−2). Average total seed predation within a region reached 55%, but we conclude that any population regulation of mesquite by seed predation will principally be through reduced seed bank persistence. Our results highlight the need to consider the entire seed pool, especially the often cryptic and overlooked long-lived stages, when determining seed loss to predation and its likely population consequences. 相似文献
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Large mammalian herbivores are both predators and dispersers of Acacia seeds. While some of the seeds are destroyed during passage through the herbivore's digestive tract, others are defecated unharmed. Ingestion by large herbivores facilitates germination by scarification of the seed coat. The extent of the influence of herbivores on seed dispersal and germination depends on seed retention time and tooth size, which are both positively correlated with body size. Infestation by bruchid beetles (Bruchidae) reduces Acacia germination. Herbivores may reduce bruchid infestation in several ways. Larvae in recently infested seeds are killed by stomach acids penetrating the seed through the larval entry hole. Seeds that are partly excavated by burrowing larvae in more advanced stages may be crushed by the herbivore's teeth. Lastly, but probably most crucially, herbivores simply remove seeds from the natal tree prior to infestation or at least prior to reinfestation. The timing and magnitude of herbivory is crucial for both the reduction of bruchid infestation and Acacia seedling establishment. Although it is widely agreed that a three–way interaction exists between bruchid beetles, Acacia trees and large mammalian herbivores, it is also apparent that the relationship is highly complex and is not yet completely understood. 相似文献
6.
James J. N. Kitson Ben H. Warren F. B. Vincent Florens Claudia Baider Dominique Strasberg Brent C. Emerson 《Molecular ecology》2013,22(21):5441-5455
The phytophagous beetle family Curculionidae is the most species‐rich insect family known, with much of this diversity having been attributed to both co‐evolution with food plants and host shifts at key points within the early evolutionary history of the group. Less well understood is the extent to which patterns of host use vary within or among related species, largely because of the technical difficulties associated with quantifying this. Here we develop a recently characterized molecular approach to quantify diet within and between two closely related species of weevil occurring primarily within dry forests on the island of Mauritius. Our aim is to quantify dietary variation across populations and assess adaptive and nonadaptive explanations for this and to characterize the nature of a trophic shift within an ecologically distinct population within one of the species. We find that our study species are polyphagous, consuming a much wider range of plants than would be suggested by the literature. Our data suggest that local diet variation is largely explained by food availability, and locally specialist populations consume food plants that are not phylogenetically novel, but do appear to represent a novel preference. Our results demonstrate the power of molecular methods to unambiguously quantify dietary variation across populations of insect herbivores, providing a valuable approach to understanding trophic interactions within and among local plant and insect herbivore communities. 相似文献
7.
Acacia trees (Leguminosae) in the Negev desert of Israel are in substantial danger of extinction as a result of high mortality, caused by anthropogenically induced water stress and very low recruitment, which is highly negatively affected by bruchid beetle infestation. Intensive seed infestation (up to 97%) by bruchids on Acacia species in the Negev desert has been described. We hypothesized that water‐stressed trees would be less able to produce secondary defense compounds in their seeds to decrease seed herbivory and hence suffer higher infestation. Thus, there should be a negative correlation between the beetle's fitness and the tree's physiological state. We further hypothesized the mechanism of the correlation to be maternal effects on beetle quality. Thus, beetles whose mothers were reared on seeds of trees in a poor state should have higher fitness, regardless of the quality of the seeds in which they were reared. We reared F1 generation Caryedon palaestinicus Southgate (Coleoptera: Bruchidae) in seeds of Acacia raddiana Savi (Leguminosae) trees in good and in poor physiological state. We then conducted a reciprocal infestation experiment enabling females to lay on seeds from both sources. We found maternal effects on offspring number but not on body mass. The major effect was the limited survival of maternal beetles on trees in good physiological state. However, contrary to our prediction, C. palaestinicus developing in seeds from Acacia raddiana in good physiological state had significantly higher body mass. 相似文献
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M.J. G. HOPKINS 《Biological journal of the Linnean Society. Linnean Society of London》1983,19(4):329-338
Earlier studies of the interrelationships between bruchid beetles and their host plants have suggested that the typical pattern tends to be that one bruchid species attacks only a few host species, and that most host species are attacked by only one bruchid species, or at most very few. However, the bruchids attacking Parkia in Amazonian Brazil do not conform to this pattern. The bruchid diversity on Parkia was found to be higher than on any other legume genus yet studied. It is not yet possible to assess whether Parkia is particularly unusual in this regard, or whether such high levels of diversity are typical in Amazonian forests. The number of bruchid taxa attacking any one Parkia species is related to the number of co-occurring closely-related Parkia species. In either taxonomically or geographically isolated host species the bruchid diversity is much reduced. 相似文献
9.
《Bioscience, biotechnology, and biochemistry》2013,77(10):2338-2340
The maize weevil, Sitophilus zeamais, is an insect pest infesting rice and corn seeds. We identified an aspartic proteinase (AP) digesting rice glutelin in the alimentary tract of S. zeamais. The mRNA encoding the AP (SAP1) was expressed in the larvae foregut and in the adult midgut. These results indicate that SAP1 is probably digestive enzyme of S. zeamais. 相似文献
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The control of the maize weevil, Sitophilus zeamais in brown rice was estimated by using a reduviid bug, Amphibolus venator, and a pteromalid wasp, Theocolax elegans. Results showed that the simultaneous release of both species of natural enemies could enhance biological control compared with the release of either species alone. 相似文献
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ABSTRACT. Dietary nitrogen content and short-day, cool scotophase temperature were investigated for effects on diet consumption and reproductive development in the female boll weevil, Anthonomus grandis Boheman (Coleoptera: Curculionidae). Experimental weevils were maintained from the day of adult eclosion on cottonseed flour diets on a LD10:14 h, 27:15C cycle. Control weevils were maintained under long-day conditions (LD13:11) at a constant 27C.
Diets containing 4% and 1.7% N were labelled with a14 C-amino acid mixture and fed to individual females for 24 h to permit determinations of diet consumption rate, amino acid absorption, and reproductive allocation of the assimilated amino acids.
Females fed the 1.7% N diet under long-day, 27C laid 50% fewer eggs than females fed the 4% N diet under the same regimen. Egg production was depressed further by the 1.7% N diet when combined with short-day, and cool scotophase temperatures. These latter conditions delayed, but did not prevent, attainment of a high rate of egg production by females fed the 4% N diet.
The short-day, cool temperature regimen also stimulated diet consumption but reduced the allocation of absorbed14 C amino acids towards oogenesis. 相似文献
Diets containing 4% and 1.7% N were labelled with a
Females fed the 1.7% N diet under long-day, 27C laid 50% fewer eggs than females fed the 4% N diet under the same regimen. Egg production was depressed further by the 1.7% N diet when combined with short-day, and cool scotophase temperatures. These latter conditions delayed, but did not prevent, attainment of a high rate of egg production by females fed the 4% N diet.
The short-day, cool temperature regimen also stimulated diet consumption but reduced the allocation of absorbed
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Li-Jie Zhang Bing-Han Xiao Yuan Wang Chun-Sheng Zheng Jian-Guang Li Kari A. Segraves Huai-Jun Xue 《Agricultural and Forest Entomology》2021,23(3):353-360
- The mango seed weevil Sternochetus mangiferae (Fabricius) is distributed across the major mango-producing areas of the world and causes significant economic losses of mango fruit. Despite its importance as a crop pest, we have only limited information on the population genetics of the mango seed weevil.
- Here, we examined the genetic diversity of this important pest using specimens intercepted by Beijing Customs District P. R. in China from 41 countries and regions. We used segments of the mitochondrial gene cytochrome c oxidase subunit I and the nuclear gene elongation factor 1-alpha to examine population genetic structure in this species.
- Our results showed that genetic diversity is low in S. mangiferae, with a mean genetic distance of 0.095–0.14%. Other population genetic parameters also indicated a low level of genetic diversity among samples from a large geographic range. Analysis of molecular variance revealed little population genetic structure, and mismatch distribution analyses provided evidence of a population expansion, although other demographic metrics of population expansion were nonsignificant.
- We suggest that the observed low level of genetic diversity and population genetic structure in S. mangiferae supports the hypothesis that the population genetics of this species has been impacted by anthropogenic transportation of mangoes and weevils.
14.
Enzymes converting procollagens to collagens 总被引:9,自引:0,他引:9
Conversion from procollagen to collagen is a specific process that is a requirement for proper alignment of collagen molecules to form functional fibers. This process is catalyzed by at least three structurally and functionally distinct enzymes cleaving collagen types I-III. The cleavage processes possibly taking place in the more recently discovered collagen types are not known to any extent at this time. Two amino-terminal proteinases, one cleaving type I and type II procollagens and the other cleaving type III procollagen, have been purified close to homogeneity, and the more unspecific activity of carboxy-terminal proteinase has been isolated from several tissues. In our experimental model, however, cleavage of the carboxy-terminal propeptides of types I and III procollagen is differently affected by lysine. This suggests the presence of at least two distinct enzymes for the removal of carboxyl-terminal propeptides. The regulation of the reaction process from procollagen to collagen is not well known at present. The importance of the phenomenon in terms of fibril formation, however, is demonstrated by several elegant studies in vitro; and certain genetic disorders in which this process is defective demonstrate the significance in vivo. Moreover, the factors shown to effect the cleavage process may be potentially beneficial in the treatment of the pathological processes with abnormal collagen accumulation such as fibrosis. In this paper we briefly review the current knowledge of the converting enzymes, including some very recent findings of our laboratory as well as the evidence presented for the biological significance of the conversion process. 相似文献
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Susana Patricia Bravo 《Biotropica》2008,40(4):471-476
All howler monkey species ( Alouatta spp.) have a folivorous–frugivorous diet. Howler monkeys are reported to be seed dispersers in several areas, including black howlers ( Alouatta caraya ), which are important seed dispersers in northern Argentinean forests. The goal of this work was to study the three-way interaction between insects, seeds, and black howlers, and assess the functional significance of this tri-trophic interaction for seed dispersal. I determined through direct observation that fruits of species with a high proportion of insect infestation were important components of howler monkey diet. Ocotea diospyrifolia seeds from fresh faeces of black howlers contained dead larvae, but seeds were still able to germinate. Seeds in which larvae had reached an advanced stage of development did not germinate. Larvae of infested Eugenia punicifolia fruits were killed by digestion when they occurred in the pulp early in the fruiting season, but were dispersed alive with seeds later in the season. Banara arguta fruits contained both healthy and infested seeds; infested seeds were destroyed during digestion, while healthy seeds were dispersed. Black howlers' ingestion of infested fruits could result in the: (1) killing of larvae and dispersion of healthy seeds; (2) spread of larvae; or (3) destruction of infested seeds. This will depend on the relationship between the time at which fruit is consumed by black howlers, the time at which insect infestation occurs, and also probably on the hardness of the seed coat and the seed–insect size ratio. 相似文献
16.
RIEKS D. VAN KLINKEN 《Austral ecology》2005,30(4):414-425
Abstract Determining total annual seed loss from seed predators is an important step in quantifying the role they have in modifying plant populations. Total seed loss is typically estimated with a single, well‐timed survey. However, this overlooks the potential importance of within‐season patterns of seed availability and insect activity, particularly where seed gain and loss are not synchronous and where insects are multivoltine. In Australia the introduced legume weed, Parkinsonia aculeata L. (Caesalpinaceae) is one such example. A replicated survey was conducted throughout a single cropping season in two contrasting habitats (uplands and wetland) to estimate total annual seed loss from seed predation and to test the relative importance of seed availability, seed feeder abundance, seed feeder behaviour and parasitism in determining total seed loss. Two seed feeders were present, the introduced biological control agent Penthobruchus germaini (Pic) (Bruchidae) and the moth, Mesophleps palpigera (Walsingham) (Gelechiidae). Seed availability patterns differed with habitat, with a greater proportion of seeds being available for longer in uplands, and resulted in total seed consumption by the beetle being twice as high in the uplands (5.2%) and no difference between habitats for the moth. Total seed loss from beetle predation was restricted by the egg parasitoid Uscana sp. (Trichogrammatidae), which was abundant throughout the season, and also by unexplained larval mortalities. This study highlights the potential importance of within‐season interactions between plant, seed feeder, natural enemies and environment in determining total seed loss through predation. The possible population and evolutionary consequences of such interactions for both the plant and the seed feeder require further consideration. 相似文献
17.
A steam volatile fraction from Rhododendron edgeworthii leaves inhibited obscure root weevil (Sciopithes obscurus) feeding on sucrose-treated membrane filters. The most prominent component in this fraction was the sesquiterpene germacrone. Germacrone was found to be an obscure root weevil repellent. 相似文献
18.
Midori TUDA Li-Hsin WU Yoichi TATEISHI Chawalit NIYOMDHAM Sawai BURANAPANICHPAN Katsura MORIMOTO Wen-Jer WU Chiao-Ping WANG Zong-Qi CHEN Hong-Ye ZHU Ying-Cui ZHANG Kadarkarai MURUGAN Liang-Yih CHOU Clarence D. JOHNSON 《Entomological Science》2009,12(1):1-8
An endophagous seed predator, Acanthoscelides macrophthalmus (Coleoptera: Chrysomelidae: Bruchinae), utilizes Neotropical Leucaena (Fabaceae: Mimosoideae). One of its hosts, Leucaena leucocephala , is a fast-growing nitrogen-fixing tree that serves as a multipurpose beneficial plant but eventually becomes an aggressive invader where it was introduced. Herein, we report A. macrophthalmus invasion of the Far East, South Asian tropics and subtropics (Japanese Pacific Islands, Taiwan, Southern China, Northern Thailand and Southern India). Of other field-collected mimosoid legumes, an introduced tree, Falcataria moluccana , in Taiwan was found to be used by the seed predator. Conversely, our published work review revealed that the seed predator had retained high host specificity to Leucaena species in its native and introduced regions. Acanthoscelides macrophthalmus was able to utilize aphagously postharvest mature seeds for oviposition and larval development, which is a trait of post-dispersal seed predators. We confirmed that A. macrophthalmus that was reared on L. leucocephala was able to utilize F. moluccana as well. Although the relatively high host specificity of the oligophagous beetle is suitable for controlling the weedy L. leucocephala , the potential host range expansion confirmed by this study must be cautioned. 相似文献
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Brunelle F Girard C Cloutier C Michaud D 《Archives of insect biochemistry and physiology》2005,60(1):20-31
Protein engineering approaches are currently being devised to improve the inhibitory properties of plant proteinase inhibitors against digestive proteinases of herbivorous insects. Here we engineered a potent hybrid inhibitor of aspartate and cysteine digestive proteinases found in the Colorado potato beetle, Leptinotarsa decemlineata Say. Three cathepsin D inhibitors (CDIs) from stressed potato and tomato were first compared in their potency to inhibit digestive cathepsin D-like activity of the insect. After showing the high inhibitory potency of tomato CDI (M(r) approximately 21 kDa), an approximately 33-kDa hybrid inhibitor was generated by fusing this inhibitor to the N terminus of corn cystatin II (CCII), a potent inhibitor of cysteine proteinases. Inhibitory assays with recombinant forms of CDI, CCII, and CDI-CCII expressed in Escherichia coli showed the CDI-CCII fusion to exhibit a dual inhibitory effect against cystatin-sensitive and cathepsin D-like enzymes of the potato beetle, resulting in detrimental effects against 3rd-instar larvae fed the hybrid inhibitor. The inhibitory potency of CDI and CCII was not altered after their fusion, as suggested by IC(50) values for the interaction of CDI-CCII with target proteinases similar to those measured for each inhibitor. These observations suggest the potential of plant CDIs and cystatins as functional inhibitory modules for the design of effective broad-spectrum, hybrid inhibitors of herbivorous insect cysteine and aspartate digestive proteinases. 相似文献
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Herbivorous insects and other small consumers are often specialized both in use of particular host taxa and in use of particular host tissues. Such consumers also often seem to show consistent differences in the rates of evolution of these two dimensions of host use, implying common processes, but this has been little studied. Here we quantify these rates of change in host use evolution in a major radiation of herbivorous insects, the Chrysomeloidea, whose diversity has been attributed to their use of flowering plants. We find a significant difference in the rates of evolutionary change in these two dimensions of host use, with host taxon associations most labile. There are apparently similar differences in rates of host use evolution in other parasite groups, suggesting the generality of this pattern. Divergences in parasite form associated with use of different host tissues may facilitate resource partitioning among successive adaptive radiations on particular host taxa. 相似文献