Ecological and evolutionary aspects of photothermal regulation of diapause in trichogrammatidae

Facultative winter diapause in the genus of Trichogramma Westw. (Hymenoptera, Trichogrammatidae), like in most other insect species, is regulated by photoperiod and temperature. Their prepupae are diapausing, but sensitivity to temperature and day length (environmental cue factors inducing diapause) is characteristic of all stages of development from embryo to the egglaying female. The environmental cues can affect not only the current, but also the next generations. Under the natural conditions, the photothermal regulation provides the timely diapause induction coordinated both with the astronomical season (the photoperiodic response) and with the peculiarity of the given year (the thermal response). The special experiments revealed “rudimentary responses” that had lost their adaptive role. The results of these studies have proved once more that the specificity of photoperiodic and thermal diapause-regulating responses, their relative importance, and association with sensitive stages of development are determined not only by the ecological peculiarities of different insect taxa, but also by their previous evolution.     

Photo-thermal regulation of diapause in Trichogramma piceum Djur. (Hymenoptera, Trichogrammatidae)

Interaction of the photoperiodic conditions of development of maternal females (day lengths of 2 to 22 h at 20°C) with the thermal regime of development of their progeny (temperature of 12 to 15°C at day length of 12 h) in determination of prepupal diapause in Trichogramma piceum was studied under laboratory conditions. At 15°C the diapause was practically absent. At lower temperatures, the proportion of diapausing prepupae was maximal (25% of larvae at 14°C, 70% of larvae at 13°, and 80% of larvae at 12°C) if the maternal females developed under short day conditions (10–12 h). When maternal females developed at day lengths of 18–20 h, diapause was rarely recorded at all temperatures, while ultra-short (less than 8–10 h) days also caused a decrease in the proportion of diapausing progeny. The right (ecologically important) threshold of this maternal long-day photoperiodic response was about 14–15 h independently of the temperature during the progeny development. These results make it possible to clarify the mechanism of the “maternal photoperiodic correction of the progeny thermal response.” Although the impact of the maternal photoperiodic response can be revealed only within a very narrow thermal range, the relative strength of the diapause-inducing effect of different day lengths is independent of the temperature regimen of the progeny development.     

Ecological and evolutionary aspects of isoprene emission from plants

Isoprene (2-methyl-1,3,-butadiene), produced by many woody and a few herbaceous plant species, is the dominant volatile organic compound released from vegetation. It represents a non-trivial carbon loss to the plant (typically 0.5–2%, but much higher as temperatures exceed 30°C), and plays a major role in tropospheric chemistry of forested regions, contributing to ozone formation. This review summarizes current knowledge concerning the occurrence of isoprene production within the plant kingdom, and discusses other aspects of isoprene biology which may be of interest to the ecological community. The ability to produce significant amounts of isoprene may or may not be shared by members of the same plant family or genus, but emitting species have been found among bryophytes, ferns, conifers and Ephedra and in approximately one-third of the 122 angiosperm families examined. No phylogenetic pattern is obvious among the angiosperms, with the trait widely scattered and present (and absent) in both primitive and derived taxa, although confined largely to woody species. Isoprene is not stored within the leaf, and plays no known ecological role as, for example, an anti-herbivore or allelopathic agent. The primary short-term controls over isoprene production are light and temperature. Growth in high light stimulates isoprene production, and growth in cool conditions apparently inhibits isoprene, production of which may be induced upon transfer to warmer temperatures. The stimulation of isoprene production by high irradiance and warm temperatures suggests a possible role in ameliorating stresses associated with warm, high-light environments, a role consistent with physiological evidence indicating a role in thermal protection. Received: 1 April 1998 / Accepted: 9 November 1998     

松毛虫赤眼蜂滞育诱导及解除条件研究

【目的】以柞蚕Antheraea pernyi卵为繁殖寄主,对松毛虫赤眼蜂Trichogramma dendrolim滞育诱导及解除条件进行研究,以解决赤眼蜂工厂化生产和大面积应用中面临的的中、长期储存问题。【方法】通过观测不同发育阶段(寄生柞蚕卵在26℃培养40、96和144 h)、滞育诱导温度(10、13和16℃)和诱导时间对松毛虫赤眼蜂滞育的影响,确定松毛虫赤眼蜂滞育诱导条件;通过观测滞育诱导温度和滞育后的贮藏温度对滞育解除的影响,确定松毛虫赤眼蜂滞育解除条件。【结果】在松毛虫赤眼蜂的不同发育阶段对其进行持续的低温刺激均能使其导入滞育,但以小幼阶段(26℃培养40 h)开始效果最佳,寄生卵在26℃培养40 h后,转入10℃和13℃下连续诱导31 d,滞育率可达100%和99.12%。滞育诱导温度和滞育后的贮藏温度对松毛虫赤眼蜂解除滞育所需时间和解除滞育后的羽化出蜂率有较大影响,10℃诱导滞育后置于1℃冷藏的赤眼蜂解除滞育所需时间最短,解除滞育后的羽化出蜂率和单卵出蜂数更高,更耐储存。此条件下冷藏约30 d开始打破滞育,在正常发育下温度下羽化出蜂,60 d羽化出蜂率达到95.24%,冷藏4个月后羽化出蜂率仍在60%以上,单卵出蜂数高于50头。【结论】松毛虫赤眼蜂最佳滞育诱导条件为26℃培养40 h后,转入10℃连续低温诱导31 d;最佳滞育解除条件为1℃低温储存,但储存期不能超过4个月。     

Ecological aspects of water quality regulation in England and Wales

The paper describes the regulatory functions of a new body set up in England and Wales for the management of water pollution, the National Rivers Authority. It outlines proposals for a new water quality classification scheme incorporating biological monitoring as an integral part, and describes other areas of pollution control where biology could be used with advantage. The derivation of statutory water quality objectives as a new concept in the management of natural waters is described, together with an indication of some of the legal mechanisms available to the NRA to ensure that the objectives are met.     

Conformational aspects and hyperpotent agonists of diapause hormone for termination of pupal diapause in the corn earworm

Diapause hormone (DH) is a peptide well known to induce embryonic diapause in the commercial silkmoth Bombyx mori. More recently, this same neuropeptide was reported to break diapause in pupae of the agriculturally important Heliothis/Helicoverpa complex. In this study we examine the efficacy and potency of a select group of structural analogs of the native hormone in Helicoverpa zea and report the structures of several analogs that are considerably more potent than DH in breaking diapause. Among the most potent analogs (PK-Etz, PK-2Abf, 901) were those with structural components that enhance resistance to peptidases that degrade and inactivate the native peptide in vivo, which may account, at least in part, for the observed increase in potency for these analogs. Analog 901 was previously demonstrated to both enhance biostablility and bioavailability properties in adult heliothines and thus may be a potential candidate for topical application as a diapause-terminating agent. The significant activity observed for two restricted conformation analogs is consistent with an active conformation for diapause hormone that features a transPro within a type I beta-turn in the C-terminal region. DH is also known to successfully break diapause only within a fairly narrow temperature range. While DH is effective at 21 degrees C, it is not effective at 18 degrees C. Likewise, the analogs were effective at 21 degrees C but not at 18 degrees C. By contrast, 20-hydroxyecdysone, a steroid hormone that is also capable of breaking diapause is effective at both temperatures, thus suggesting that DH and the ecdysteroids act through different mechanisms to terminate diapause.     

Ecological modelling in an evolutionary context

I argue that one of the strong features in disciplines like molecular biology and cosmology is the extent ot which they use a powerful theoretical framework to generate and test quantitative predictions. Studies of biological evolution can exploit a similar advantage by integrating our current understanding of physiological and sociobiological processes to generate models of much greater sophistication than has commonly been the practice hitherto. I illustrate this with a number of examples drawn from the evolutionary biology of human and nonhuman primates.     

Genetic and evolutionary aspects of aging.

Four questions of fundamental importance to gerontology are considered. 1) The number of genes involved in aging--in the case of man, an analysis of the phenotypes of relevant spontaneous mutants indicates that aging is highly polygenic. 2) General categories of genes--regulator genes may be more relevant than structural genes: a) three aneuploid disorders, Down's, Turner's and Klinefelter's syndromes, ranked among the top 10 candidates as "segmental progeroid syndromes" when compared with 162 single gene disorders of relevance to the pathobiology of aging; b) the rates at which maximum life spans have been increasing, especially among hominids, have probably been too rapid to be accounted for by changes in the amino acid sequences of proteins; c) a preliminary analysis of the variance of maximum life spans among a few orders of mammals is suggestive of a linear correlation with the indexes of rates of chromosomal evolution, as estimated by Bush et al. (Proc. Natl. Acad. Sci. USA 74: 3942-3946, 1977). 3) Nature of gene action--although there are reasons for invoking genes that modulate the rates of accumulation of somatic mutations, differential regulation of development is likely to be a major setting for gene action. 4) New approaches to formal genetic analysis of aging--advances in experimental embryology and somatic cell genetics offer such opportunities.     

Physiological aspects of diapause and cold tolerance during overwintering in Pieris brassicae

Abstract The relationship between diapause-associated metabolic suppression and carbohydrate metabolism linked with cold tolerance was investigated in pupae of Pieris brassicae L. Cold tolerance was assessed by measuring the crystallization temperature (T_c) and by estimates of pre-freeze mortality. Metabolic suppression was measured using ³¹P nmr and carbohydrates by GLC. Sorbitol (a possible cryoprotectant) accumulated from the onset of diapause in October until December reaching a concentration of c. 40 mMolal in both years of the study, but then declined from January until adult eclosion in May. The T_c remained between -23 and -25^oC throughout the winter except for a slight rise before eclosion in May. The absence of a significant T_c suppression is as predicted from the low concentration of sorbitol accumulated. The pre-freeze mortality experiments indicate that pupae are most cold tolerant in the period December-February when sorbitol concentration is high, suggesting an alternative cryoprotective role for sorbitol. Glycogen declined at the beginning of diapause until February after which there was some recovery suggesting that it may be the source of carbon for sorbitol synthesis. Diapause-associated metabolic suppression is evident in the low ³¹P nmr resonances of ATP during November-February compared with non-diapause pupae and diapause pupae soon after pupation. The suppression of metabolism at this time may have a direct role in cryoprotection and by itself (rather than sorbitol) account for the increased pre-freeze cold tolerance. ATP appears to increase slowly from February until a sharp increase occurs shortly before eclosion. Arginine phosphate remains high during diapause until late February-March when it begins a decline which continues until eclosion. A period of change in energy and carbohydrate metabolism is apparent at the same time which may indicate diapause termination and related changes in cold tolerance mechanisms. It is argued that in P.brassicae sorbitol accumulates as a result of metabolic suppression and may have no cryoprotective role. However, for species living in, or colonizing, low temperature environments it is a short evolutionary step to exploit this pathway and accumulate high concentrations of polyols as a specialized cold tolerance strategy.     

Ecological and evolutionary genomics of Saccharomyces cerevisiae

Saccharomyces cerevisiae, the budding yeast, is the most thoroughly studied eukaryote at the cellular, molecular, and genetic levels. Yet, until recently, we knew very little about its ecology or population and evolutionary genetics. In recent years, it has been recognized that S. cerevisiae occupies numerous habitats and that populations harbour important genetic variation. There is therefore an increasing interest in understanding the evolutionary forces acting on the yeast genome. Several researchers have used the tools of functional genomics to study natural isolates of this unicellular fungus. Here, we review some of these studies, and show not only that budding yeast is a prime model system to address fundamental molecular and cellular biology questions, but also that it is becoming a powerful model species for ecological and evolutionary genomics studies as well.     

Ecological and evolutionary consequences of biotic homogenization

Biotic homogenization, the gradual replacement of native biotas by locally expanding non-natives, is a global process that diminishes floral and faunal distinctions among regions. Although patterns of homogenization have been well studied, their specific ecological and evolutionary consequences remain unexplored. We argue that our current perspective on biotic homogenization should be expanded beyond a simple recognition of species diversity loss, towards a synthesis of higher order effects. Here, we explore three distinct forms of homogenization (genetic, taxonomic and functional), and discuss their immediate and future impacts on ecological and evolutionary processes. Our goal is to initiate future research that investigates the broader conservation implications of homogenization and to promote a proactive style of adaptive management that engages the human component of the anthropogenic blender that is currently mixing the biota on Earth.     

Maternal influence on diapause induction in Trichogramma (Hymenoptera: Trichogrammatidae): the dynamics of photosensitivity

It is known that the prepupal diapause in Trichogramma is dependent on temperature conditions of embryonic and larval development and on the photoperiodic conditions of preimaginal development of maternal females. However, the relative photosensitivity of different preimaginal stages has been never investigated. We studied the position of the photosensitive period over the preimaginal development of maternal females in T. embryophagum Htg. and T. principium Sug. et Sor. by transferring preimaginal stages between diapause‐averting ‘long’ day (L : D = 20 : 4) and diapause‐inducing ‘short’ day (L : D = 12 : 12). Results showed that the influence of maternal photoperiod on progeny diapause was determined during the late pupal stage (last days of preimaginal development at 20°C). During this time, the critical duration of the photoperiodic induction was extremely small: one short or long day caused almost the same effect as the permanent development under these conditions. As a whole, photoperiodic response in Trichogramma was found to be unusually rapid, labile and easily reversible which is probably explained by extremely small size and fast development of these egg parasitoids. The results of this study could be used for elaboration of optimal methods for Trichogramma mass rearing and storage and for prediction of its seasonal cycles under natural conditions.     

Ecological and evolutionary implications of immunological priming in invertebrates

Invertebrates have an immune response that differs considerably from the acquired immune response found in vertebrates. However, new studies indicate that past experience with a pathogen can provide individual invertebrates, or their descendants, with enhanced immunity. This prophylactic effect, termed immunological priming, is functionally similar to the acquired immune response in vertebrates. This newfound complexity of invertebrate immunity begs investigation into the conditions under which immunological priming should evolve, and its consequences for population dynamics.     

The evolutionary aspects of aquaporin family

Aquaporins (AQPs) were originally identified as channels facilitating water transport across the plasma membrane. They have a pair of highly conserved signature sequences, asparagine-proline-alanine (NPA) boxes, to form a pore. However, some have little conserved amino acid sequences around the NPA boxes unclassifiable to two previous AQP subfamilies, classical AQPs and aquaglyceroporins. These will be called unorthodox AQPs in this review. Interestingly, these unorthodox AQPs have a highly conserved cysteine residue downstream of the second NPA box. AQPs also have a diversity of functions: some related to water transport such as fluid secretion, fluid absorption, and cell volume regulation, and the others not directly related to water transport such as cell adhesion, cell migration, cell proliferation, and cell differentiation. Some AQPs even permeate nonionic small molecules, ions, metals, and possibly gasses. AQP gene disruption studies have revealed their physiological roles: water transport in the kidney and exocrine glands, glycerol transport in fat metabolism and in skin moisture, and nutrient uptakes in plants. Furthermore, AQPs are also present at intracellular organelles, including tonoplasts, mitochondria, and the endoplasmic reticulum. This review focuses on the evolutionary aspects of AQPs from bacteria to humans in view of the structural and functional diversities of AQPs.     

Enzyme promiscuity: evolutionary and mechanistic aspects

The past few years have seen significant advances in research related to the 'latent skills' of enzymes - namely, their capacity to promiscuously catalyze reactions other than the ones they evolved for. These advances regard (i) the mechanism of catalytic promiscuity - how enzymes, that generally exert exquisite specificity, promiscuously catalyze other, and sometimes barely related, reactions; (ii) the evolvability of promiscuous functions - namely, how latent activities evolve further, and in particular, how promiscuous activities can firstly evolve without severely compromising the original activity. These findings have interesting implications on our understanding of how new enzymes evolve. They support the key role of catalytic promiscuity in the natural history of enzymes, and suggest that today's enzymes diverged from ancestral proteins catalyzing a whole range of activities at low levels, to create families and superfamilies of potent and highly specialized enzymes.     

Ecological and evolutionary insights from species invasions

Species invasions provide numerous unplanned and frequently, but imperfectly, replicated experiments that can be used to better understand the natural world. Classic studies by Darwin, Grinnell, Elton and others on these species-invasion experiments provided invaluable insights for ecology and evolutionary biology. Recent studies of invasions have resulted in additional insights, six of which we discuss here; these insights highlight the utility of using exotic species as 'model organisms'. We also discuss a nascent hypothesis that might provide a more general, predictive understanding of invasions and community assembly. Finally, we emphasize how the study of invasions can help to inform our understanding of applied problems, such as extinction, ecosystem function and the response of species to climate change.     

Homochirality and stereospecific activity: evolutionary aspects

The problem discussed in this paper is the connection between the unique property of biopolymers (proteins, DNA and RNA), i.e. homochirality, and their main functional property, i.e. self-replication. Our approach is based on an analysis of the conditions for the origination of the mechanism of self-replication of chiral polymers. It is demonstrated that self-replication could originate only on the basis of homochiral structures, possessing stereospecific (enzymatic) activity. It is also shown that complete breaking of the mirror symmetry of the organic medium is required both at the stage of polymeric takeover and at the stage of formation of structures possessing stereospecific activity. This requirement is satisfied only in the framework of the mechanism of spontaneous symmetry breaking i.e. the mechanism of non-equilibrium phase transition from the racemic state of the organic medium to the chirally pure one. The results obtained suggest that homochirality is a necessary condition for the origination of biological specificity and plays a fundamental role in the formation of structures capable of self-replication.     

Human evolutionary aspects and urban dwelling features

Planning and architecture of modern housing projects should take into account the fact that human well-being depends very much on needs derived from the natural history of human evolutionary aspects, which include territoriality, security, and a balance between privacy and communal activity. Although model housing projects should consider space, all to often the need for privacy and the importance of the residential environment has been neglected. Putative consequences are a loss of social coherence, resulting in anonymity, vandalism and an increase in crime rates. On a game theoretical basis, we predict that a tendency for cooperation grows with the increasing probability of future meetings among inhabitants. The higher the probability to re-meet co-residents, the more interactions are to be expected. Frequent meetings lead to reciprocal recognition and enable the inhabitants to control their environment by identifying straners. This mechanism results in the identification with a common territory. Friendly interactions between residents are a motor for and an indicator of satisfactory living conditions. For this study, six different Viennese residential apartment blocks were selected and their quality measured using a checklist. The behavior of the residents was recorded using ethological standard methods (N = 1653), their subjective evaluation was assessed by on-site interviews (N = 300), and the frequency of physical incivilities was counted. The results support the hypotheses. The classification of urban environments relating to the presence of the above-listed features indicates that high habitat quality covaries with differences in preference for the site, extent of friendly interactions and familiarity with other residents, and occurrences of incivilities. One may conclude that the importance of the quality of the habitat environment cannot be overestimated, as its socially integrative potential is a means to counteract anonymity and crime incidence in cities.