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L.P. Ponomarenko T.N. Makarieva V.A. Stonik A.S. Dmitrenok P.S. Dmitrenok 《Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology》1995,111(4)
The sterol fraction from the marine worm Linneus torquatus Coe (phylum Nemertini, class Anopla, family Lineidae) has been isolated, separated by HPLC and preparative TLC on AgNO3-impregnated silica gel, and sterols identified using GC, GC-MS and NMR spectroscopy. It was shown that the fraction contains at least 12 sterols belonging mainly to Δ5,22, Δ5,24(28) and Δ5 series. The major sterol components were 24-methylcholesta-5,24(28)-dien-3β-ol, cholesta-5,22E-dien-3β-ol, 24-nor-cholesta-5,22-dien-3β-ol and cholesterol. 相似文献
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Abstract.
- 1 Predictive models are frequently used to assist forecasts of species’ distributions. For rare species, this approach can provide insights into habitat utilisation and potential habitat suitability that can assist conservation action. However the technique has seldom been used for invertebrates.
- 2 A habitat suitability model was constructed for the rare ant, Formica exsecta, at Glenmore, a pinewood site in Scotland that contains a significant proportion of the UK population of this species. A range of botanical and environmental variables were surveyed within cells in a grid structure. The model successfully re‐classified 87% of cells according to the presence/absence of ant nests. When subject to a jackknife procedure, 70% of cells were successfully re‐classified and the median predicted probability of presence in occupied cells was significantly greater than in unoccupied cells.
- 3 The model was further evaluated against three independent datasets with rates for successful predictions of 70%, 62.5% and 25%. The performance declined with increased distance from the area from which calibration data were collected.
- 4 We conclude that caution is required when a model is validated purely by reference to the data from which it was constructed and not against independent data. However, the process can provide useful insights into habitat suitability for rare invertebrates that can assist rapid assessment of potential ranges for conservation measures such as restoration of populations.
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P.M. Johnson A.O. Dennis Willows 《Marine and Freshwater Behaviour and Physiology》2013,45(2-3):147-180
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Brianna Coulter Rebecca S. West Richard T. Kingsford Katherine E. Moseby 《Austral ecology》2023,48(7):1252-1273
The density and abundance of arid-dwelling taxa often change significantly in response to precipitation fluctuations and the abundance of their predators. The survival and density of burrowing arthropods and their burrows in arid environments following prolonged dry periods and subsequent rains is poorly understood, as is the potential influence of reintroductions of their predators, such as fossorial mammals. The persistence of these arthropods and their burrows may be important for other species that rely on them for food or use their burrows for shelter. In this study, we examined the density of burrowing and ground-nesting arthropods and their burrows in Australia's Strzelecki Desert over two years between 2019 and 2021. This period spanned the tail-end of the worst drought on record and subsequent drought-breaking rains. We employed a Before-After Control-Impact (BACI) study design to examine the short-term effects of a fossorial mammal reintroduction of the greater bilby (Macrotis lagotis) into predator-free fenced exclosures and used an inspection camera to detect the presence of spiders and other taxa within individually marked burrows. We observed the largest changes in arthropod abundance and burrow density between a period that encompassed a third consecutive summer in drought and the commencement of drought-breaking rains, with some taxa declining by as much as 77% (p < 0.001). While the density of harvester ant middens erupted over this time, the density of tarantulas, trapdoor spiders and scorpions declined significantly. The greater bilby reintroduction had no short-term effect on the densities of the arthropods or their burrows, but their arrival may have implications on their post-drought recovery. Further studies are needed to determine if the significant declines in arthropod populations and burrows are reflective of normal boom-bust population dynamics due to the poor natural history knowledge of the arthropods we examined. 相似文献
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Stephen M. Ferkovich Herbert Oberlander 《In vitro cellular & developmental biology. Animal》1991,27(6):483-486
Summary An increasing number of polypeptide growth factors have been identified that have proven essential in the development of defined cell culture media for mammalian cell culture. The development of defined mammalian cell culture media, in turn, has provided an environment for studying cell lines in an experimentally manageable unit for studying the action of cellular regulators and genes that determine the properties of cells. Evidence that vertebrate growth factors may be present in insects is based on DNA sequences that encode epidermal growth factor and transforming growth factor-β. However, research on the influence of commercially available vertebrate growth factors is very limited. Although the majority of insect growth-promoting substances studied were isolated directly from insect hemolymph, few of these have been purified to the extent that they could be tested in insect cell, tissue, and endoparasite cultures. Research is needed in both of these areas to aid in developing defined insect culture systems, and to understand better the regulation of postembryonic growth and development in insects. 相似文献
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Beno?t Piégu Sébastien Guizard Tan Yeping Corinne Cruaud Arnault Couloux Dennis K. Bideshi Brian A. Federici Yves Bigot 《Standards in genomic sciences》2014,9(3):940-947
Members of the family Iridoviridae are animal viruses that infect only invertebrates and poikilothermic vertebrates. The invertebrate iridoviruses 22 (IIV22) and 25 (IIV25) were originally isolated from a single sample of blackfly larva (Simulium spp., order Diptera) collected from the Ystwyth river near Aberystwyth, Wales. Recently, the genomes of IIV22 (197.7 kbp) and IIV25 (204.8 kbp) were sequenced and reported. Here, we describe the complete genome sequence of IIV22A, a variant that was isolated from the same pool of virions collected from the blackfly larva from which the IIV22 virion genome originated. The IIV22A genome, 196.5 kbp, is smaller than IIV22. Nevertheless, it contains 7 supplementary putative ORFs. Its analysis enables evaluation of the degree of genomic polymorphisms within an IIV isolate. Despite the occurrence of this IIV variant with IIV22 and IIV25 in a single blackfly larva and the features of their DNA polymerase, we found no evidence of lateral genetic transfers between the genomes of these two IIV species. 相似文献
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Differences in size-related ecology and behaviour between vertebrate and invertebrate herbivores lead to differences in the
rates, tissue specificity, and spatial distribution of their damage, as well as in their indirect effects. As a result, many
features of tolerance to herbivory by these groups also may differ. Tolerating vertebrate herbivory may demand the ability
to tolerate sporadic non-specific impacts; this may be achieved by broad responses promoting regrowth and resource acquisition.
In contrast, the diversity of different types of invertebrate damage seems likely to demand a correspondingly great variety
of responses. These conclusions suggest that tolerance to invertebrates may involve a broader set of responses than tolerance
to vertebrates; conversely, the greater specificity of these responses may make it more difficult for arthropod-tolerant plants
to achieve cross-tolerance to other types of damage.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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HUI ZHU DELI WANG LING WANG JIAN FANG WEI SUN BINGZHONG REN 《Ecological Entomology》2014,39(4):453-461
- Precipitation can be a key driver of ecosystem functioning in semi‐arid and arid grasslands. Altered precipitation patterns had significant impacts on plant community dynamics, which in turn influenced the community composition and structure of higher trophic levels, especially insects, in grasslands.
- A field experiment was conducted by manipulating the amount of natural precipitation (control, +30% rainfall, and ?30% rainfall) to examine the effects of altered precipitation patterns on insect diversity, abundance, and trophic structure in a meadow steppe over 3 years (2007–2009).
- The results showed that the increased precipitation treatment significantly enhanced above‐ground biomass of the entire plant community and particularly grasses, whereas the decreased precipitation treatment significantly reduced them. There were year‐to‐year changes in species richness, Shannon–Wiener index, and abundance of the whole insect community. Both increased and decreased precipitation caused declines in insect species richness and abundance owing to potentially complex vegetation‐mediated effects and direct habitat effects. The abundance of each trophic guild in the insect community responded differently to altered precipitation patterns, with lower herbivore abundance and unchanged abundance of predators and parasitoids. Thus changes in precipitation may generate an insect community that is increasingly dominated by secondary consumers.
- The present results suggest that altered precipitation causes a declines in insect diversity and shifts in trophic structure, potentially influencing ecosystem functioning in grasslands. Additionally, the inter‐annual variation in the insect community under altered precipitation highlights the importance of long‐term experiments for drawing correct conclusions about the impacts of climate change on grassland ecosystems.
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- Sedimentation and clogging (colmation) of interstitial pore spaces with fine sediment particles is widely considered to be one of the most significant threats to lotic ecosystem functioning. This paper presents the results of a running water mesocosm study examining the effect of benthic and hyporheic fine sediment loading and particle size on the vertical movement and distribution of the freshwater amphipod Gammarus pulex.
- A gradient of fine sediment loading and different particle sizes were used to examine the ability of G. pulex from two body size classes to access and migrate vertically within subsurface sediments.
- We tested three hypotheses: (a) sediment loading would modify the distribution of G. pulex by limiting vertical movement; (b) the deposition of large particles and heterogenous sediments would limit the vertical movement of individuals more than homogeneous fine‐grained sediments; and (c) large bodied individuals would be prevented from migrating vertically with increasing sediment loading and particle size/heterogeneity.
- Sediment loading, particle size and heterogeneity of deposited sediment had a significant effect on the vertical movement of individuals, with heterogeneous sand (0.125–4 mm) acting as the strongest barrier to the vertical movement of individuals through the infilling and clogging of interstitial spaces followed by coarse (1–4 mm) and fine sand (0.125–4 mm).
- Fine sediment loading and particle size acted as a filter on body size and limited the ability of large bodied individuals to migrate vertically to a greater extent than small bodied individuals.
- This study demonstrates that the effects of fine sediment on habitat availability and faunal movement is dependent on both sedimentological characteristics and an individual's body size. The results illustrate the importance of both abiotic and biotic factors when evaluating the ecological effects of fine sediment deposition.
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Sherrow HM 《American journal of primatology》2005,65(4):377-383
Chimpanzee tool use for resource acquisition has been reported at numerous research sites. The chimpanzees of the Kibale Forest, western Uganda, have not previously been observed to use tools in foraging for insects. Here I report the first observation of tool use by the chimpanzees of the Ngogo community of Kibale National Park, Uganda, in insect foraging. Three adult females, one adolescent male, and one juvenile male were observed making and using tools to probe into a fallen dead tree to collect insect and wood pieces. I discuss the importance of this observation, and the behavioral similarities with chimpanzees from other sites. 相似文献
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风洞技术在昆虫化学通讯研究中的应用 总被引:12,自引:1,他引:12
综述了昆虫化学生态学中所使用的风洞技术。内容包括风洞的构造 ,风洞的工作条件 ,风洞操作中的技巧和数据采集 ,昆虫在风洞中表现出的典型行为特征以及一些需要注意的问题 相似文献
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河南鸡公山国家级自然保护区昆虫多样性研究 总被引:1,自引:0,他引:1
2018年5-10月在河南鸡公山国家级自然保护区内开展了昆虫多样性调查工作,共采集到昆虫2110头,分别隶属于15目106科880种.其中以鳞翅目Lepidoptera(274种)、鞘翅目Coleoptera(206种)、半翅目Hemiptera(185种)和膜翅目Hymenoptera(89种)为主,种数占比分别为3... 相似文献
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Stone AI 《American journal of primatology》2007,69(2):142-157
Tropical forests are characterized by marked temporal and spatial variation in productivity, and many primates face foraging problems associated with seasonal shifts in fruit availability. In this study, I examined seasonal changes in diet and foraging behaviors of two groups of squirrel monkeys (Saimiri sciureus), studied for 12 months in Eastern Brazilian Amazonia, an area characterized by seasonal rainfall. Squirrel monkeys were primarily insectivorous (79% of feeding and foraging time), with fruit consumption highest during the rainy season. Although monkeys fed from 68 plant species, fruit of Attalea maripa palms accounted for 28% of annual fruit-feeding records. Dietary shifts in the dry season were correlated with a decline in ripe A. maripa fruits. Despite pronounced seasonal variation in rainfall and fruit abundance, foraging efficiency, travel time, and distance traveled remained stable between seasons. Instead, squirrel monkeys at this Eastern Amazonian site primarily dealt with the seasonal decline in fruit by showing dietary flexibility. Consumption of insects, flowers, and exudates increased during the dry season. In particular, their foraging behavior at this time strongly resembled that of tamarins (Saguinus sp.) and consisted of heavy use of seed-pod exudates and specialized foraging on large-bodied orthopterans near the forest floor. Comparisons with squirrel monkeys at other locations indicate that, across their geographic range, Saimiri use a variety of behavioral tactics during reduced periods of fruit availability. 相似文献
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Chimpanzees show cultural differences among populations across Africa but also between neighboring communities. The extent of these differences among neighbors, however, remains largely unknown. Comparing three neighboring chimpanzee community in the Taï National Park, Côte d'Ivoire, we found 27 putative cultural traits, including tool use, foraging, social interaction, communication and hunting behavior, exceeding by far previously known diversity. As foraging behavior is predominantly influenced by the environment, we further compared in detail ecological circumstances underlying insectivore feeding behavior to analyze whether foraging differences on Dorylus ants and Thoracotermes termites seen between neighboring chimpanzee communities were caused by environmental factors. Differences in the prey characteristics of Dorylus ants (aggression level, running speed, and nest structure) that could influence the behavior of chimpanzees were excluded, suggesting that the observed group‐specific variation is not ecologically driven. Only one community preyed on Thoracotermes termites despite a similar abundance of termite mounds in all three territories, supporting the idea that this difference is also not shaped by the environment. Therefore, our study suggests that transmission of cultural knowledge plays a role in determining insectivory prey behavior. This behavioral plasticity, independent of ecological conditions, can lead to large numbers of cultural diversification between neighboring chimpanzee communities. These findings not only deepen our understanding of the cultural abilities of chimpanzees in the wild but also open up possible future comparisons of the origin of cultural diversification among humans and chimpanzees. Am J Phys Anthropol 156:67–75, 2015 © 2014 Wiley Periodicals, Inc. 相似文献
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LEANDRO FREITAS GABRIEL BERNARDELLO LEONARDO GALETTO ADELITA A. S. PAOLI 《Botanical journal of the Linnean Society. Linnean Society of London》2001,136(3):267-277
Flower morphology, nectary structure, nectar chemical composition, breeding system, floral visitors and pollination were analysed in Croton sarcopetalus , a diclinous-monoecious shrub from Argentina. Male flowers have five receptacular nectaries, with no special vascular bundles, that consist of a uniserial epidermis with stomata subtended by a secretory parenchyma. Female flowers bear two different types of nectaries: inner (IN) and outer (ON) floral nectaries. IN, five in all, are structurally similar to the nectaries of male flowers. The five ON are vascularized, stalked, and composed of secretory, column-shaped epidermal cells without stomata subtended by secretory and ground parenchyma. In addition, ON act as post-floral nectaries secreting nectar during fruit ripening. Extrafloral nectaries (EFN) are located on petioles, stipules and leaf margins. Petiolar EFN are patelliform, stalked and anatomically similar to the ON of the female flower. Nectar sampled from all nectary types is hexose dominant, except for the ON of the female flower at the post-floral stage that is sucrose dominant. The species is self-compatible, but geitonogamous fertilization is rarely possible because male and female flowers are not usually open at the same time in the same individual, i.e. there is temporal dioecism. Flowers are visited by 22 insect species, wasps being the most important group of pollinators. No significant differences were found in fruit and seed set between natural and hand pollinated flowers. This pattern indicates that fruit production in this species is not pollen/pollinator limited and is mediated by a wide array of pollinators. 相似文献
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- Circellium bacchus is South Africa's largest ball‐rolling dung beetle and a habitat specialist of dense bush. It is also wingless, a rare phenomenon amongst large dung beetles and, unusual for the group, only females construct and bury brood balls. She cares for the single brood for 4–5 months, and lives for 3–5 years.
- The beetles currently occur in two separate populations in South Africa, one in the south‐east and one consisting of at least eight fragmented sub‐populations in the south‐west. Here, we use both mitochondrial and nuclear DNA sequences to infer the evolutionary history of this species.
- The Eastern and Western populations are genetically separated by 14% mitochondrial sequence divergence, sharing only a single nuclear haplotype. Mitochondrial and nuclear data indicate that C. bacchus belongs to an ancient (Eocene) relict lineage and that the Eastern and Western populations appear to have been separated by Pliocene continental uplift and a relictual Pleistocene block of temperate forest. Subsequent Plio‐Pleistocene climatic change caused further fragmentation of the Western population, now exacerbated by human‐induced land transformation.
- The Eastern and Western populations are identifiable as two distinctly separate entities of possible species status, but with definite need for recognition as evolutionary significant units. The Western sub‐populations are genetically significantly different enough to be defined and recognised as management units. The Eastern population is largely distributed in the Addo Elephant National Park where its persistence is currently secure, but the sub‐populations of the Western lineage occur as fragments of various sizes in a matrix of agriculturally transformed landscape.
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Insects produce pheromones to serve a range of ecological functions throughout their lifetime. The chemical composition, production pattern, and interspecies specificity provide information for carrying out their function and biological significance. Several species of Drosophila produce a class of volatile esters considered as “fruity smells”; however, the production pattern and ecological functions of these “fruity smell” volatiles in genus Drosophila are poorly understood. Here, using the headspace solid-phase microextraction (SPME) method, we tested the production pattern of volatile pheromones in Drosophila immigrans and factors that possibly affected pheromone production, including mating, feeding conditions, age of adult flies, and geographical distribution. We also explored the evolution and production pattern of volatile pheromones in 14 species of genus Drosophila. Our result showed that male D. immigrans adult flies produce three male-specific volatile ester pheromones, which are also considered as “fruity smell” chemicals, in a relatively stable pattern. In addition, a series of “fruity smell” ester pheromones with similar structure and chemical properties were found to appear in the species of D. virilis and D. immigrans species group, but not in the species of D. melanogaster species group. The ester volatile pheromone production of male flies has a correspondence with the female's demand for host plants. Integrating the production and evolution pattern of these volatile chemicals, we inferred the interaction between insects and host plants reflected in the Drosophila “fruity smell” pheromones. 相似文献