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991.
This study focuses on selective feeding by developmental stages of two oceanic copepods, Calanus finmarchicus and Calanus helgolandicus from nauplii to adults. A mixture of four algal species of different biochemical composition, Prorocentrum nanum (dinoflagellate), Thalassiosira minima (diatom), Rhodomonas baltica (cryptophyte) and Dunaliella tertiolecta (chlorophyte), added in an equal biovolume, was used in three different experimental set-ups. In set-up 1 the algal species
were present as single cells of similar size (14 μm). In set-up 2 the diatom T. minima was present in chains of two or three cells and was therefore larger than the other algae, while the biovolume of all species
remained the same. In set-up 3, the diatom T. minima was excluded from the mixture. Feeding selectivity of the copepods was assessed in relation to the quality of the algal species
expressed in terms of carbon and nitrogen content, fatty acid composition, and chain length of the diatom. The results show
that younger stages and adult females of C. finmarchicus and C. helgolandicus did not show a preference for an algal species when the algae were of similar size. In the feeding experiments where the
diatoms were offered as chains, both copepod species showed a selective behaviour only on the basis of algal size. Individual
ingestion rates increased from 0.4 to 0.7 μg C day–1 for nauplii of both species to 5 μg C day–1 for adult females of C. helgolandicus to 12 μg C day–1 for C. finmarchicus. Individual filtration rates ranged from 5 ml day–1 for C. finmarchicus nauplii to 70–98 ml day–1 for adult females, and from 3 ml day–1 for C. helgolandicus nauplii to 35–46 ml day–1 for adult females. Ingestion and filtration rates per unit body carbon decreased gradually in both copepod species with increasing
body carbon. The daily ingested amount of food decreased for C. finmarchicus from 124–134% of the body carbon for nauplii to 19% of the body carbon for adult females, and for C. helgolandicus from 117–137% of the body carbon for nauplii to 13–26% of the body carbon of adult females.
Electronic Publication 相似文献
992.
Impact of epistasis and QTL×environment interaction on the developmental behavior of plant height in rice (Oryza sativa L.) 总被引:2,自引:0,他引:2
G. Cao J. Zhu C. He Y. Gao J. Yan P. Wu 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2001,103(1):153-160
QTLs with epistatic effects and environmental interaction effects for the developmental behavior of plant height in rice were
studied by conventional and conditional methods for quantitative trait loci (QTLs) by mapping with a doubled-haploid population
of 123 lines from IR64/Azucena in three environments. The results showed that epistatic effects were important and most epistasis
could be detected only by conditional QTL mapping, while most non–epistatic QTLs could be detected by both conventional and
conditional methods. Many modificative QTLs showed only epistatic effects without their own additive effects at some stages.
QTL×environment (QE) interaction effects were detected more often than QTL main effects for plant-height behavior, which might indicate that
gene expression could be greatly affected by the environment. No QTLs had effects during the whole of ontogeny. Conditional
QTL mapping might be a valid way to reveal dynamic gene expression for the development of quantitative traits, especially
for epistatic effects.
Received: 19 May 2000 / Accepted: 27 October 2000 相似文献
993.
The transformation of natural habitats into urban landscapes dramatically alters thermal environments, which in turn, can impact local biota. Ectothermic organisms that are oviparous are particularly sensitive to these altered environments because their embryos cannot behaviorally thermoregulate and the surrounding environment determines the temperature experienced during development. We studied the effects of urban and forested thermal environments on embryo development and hatchling phenotypes in two non-native lizards (Anolis sagrei and A. cristatellus) in metropolitan Miami, Florida. To determine if embryos from urban and forested sites are adapted to their respective thermal environments, we incubated eggs from each site using temperatures that simulate likely nest conditions in both urban and forested environments. For both species, urban thermal environments accelerated embryonic development, but had no impact on egg survival or any of the phenotypic traits that were measured (e.g., body size, running performance, and locomotor behavior). Our results provide no evidence that embryos from urban and forested sites are adapted to their respective thermal environments. Instead, the lack of any major effects suggest that embryos of both species are physiologically robust with respect to novel environments, which could have facilitated their success in establishing in non-native ranges and in human-modified landscapes. 相似文献
994.
目的:探讨应用两种股骨截骨旋转角度测量方法矫正股骨颈前倾角(FNA)在儿童发育性髋关节脱位(DDH)治疗中的价值。方法:回顾性分析我科自2006年1月~2015年6月行手术治疗的DDH 32例(32髋),其中,股骨旋转截骨时,2006年1月~2009年12月的16例(16髋)采用画线法;2010年1月~2015年6月的16例(16髋)采用量角法。术前及术后进行X线及三维CT检查测量FNA。两组的一般资料及术前健侧及患侧FNA角度的差异无统计学意义(P0.05)。结果:本组病例均获得随访,随访时间12~48个月,平均28个月。两组术后患侧FNA与术前相比,均差异明显(P0.01);而与健侧相比,差异不明显(P0.05),说明术后FNA较术前明显改善,达到与健侧大致相等的FNA。两组间术后健侧、患侧FNA比较,无显著性差异(P0.05),故,目前尚不足以证明行股骨旋转截骨术时后期采用的量角法优于画线法。结论:采用量角法及画线法进行股骨旋转截骨术均可获得满意疗效。 相似文献
995.
Noramly S Zimmerman L Cox A Aloise R Fisher M Grainger RM 《Mechanisms of development》2005,122(3):273-287
In the rapidly developing, diploid amphibian Xenopus tropicalis, genetics can be married to the already powerful tools of the amphibian system to overcome a disability that has hampered Xenopus laevis as a model organism: the difficulties inherent in conducting genetic analyses in a tetraploid organism with a longer generation time. We describe here a gynogenetic screen to uncover naturally occurring recessive mutations in wild X. tropicalis populations, a procedure that is both faster and easier than conventional genetic screens traditionally employed in model organisms to dissect early developmental pathways. During the first round of our screen, gynogenetic diploids from over 160 females comprising four different wild-caught populations were examined. Forty-two potential mutant phenotypes were isolated during this round of gynogenesis. From this group, we describe 10 lines that have genetically heritable recessive mutations. A wide range of developmental defects were obtained in this screen, encompassing effects limited to individual organs as well phenotypes characterized by more global changes in tadpole body morphology. The frequency of recessive mutations detected in our screen appears lower than that seen in other vertebrate genetic screens, but given constraints on the screening procedure used here, is likely to be consistent with rates seen in other animals, and clearly illustrates how wild-caught animals can be a productive source of developmental mutations for experimental study. The development of genetic strategies for the Xenopus system, together with new genomic resources, existing technologies for transgenesis, and other means for manipulating gene expression, as well as the power of performing embryonic manipulations, will provide an impressive set of tools for resolving complex cell and developmental phenomena in the future. 相似文献
996.
997.
998.
Maintaining an adaptive seasonality, with life cycle events occurring at appropriate times of year and in synchrony with cohorts and ephemeral resources, is a basic ecological requisite for many cold-blooded organisms. There are many mechanisms for synchronizing developmental milestones, such as egg laying (oviposition), egg hatching, cocoon opening, and the emergence of adults. These are often irreversible, specific to particular life stages, and include diapause, an altered physiological state which can be reversed by some synchronizing environmental cue (e.g. photoperiod). However, many successful organisms display none of these mechanisms for maintaining adaptive seasonality. In this paper, we briefly review the mathematical relationship between environmental temperatures and developmental timing and discuss the consequences of viewing these models as circle maps from the cycle of yearly oviposition dates and temperatures to oviposition dates for subsequent generations. Of particular interest biologically are life cycles which are timed to complete in exactly 1 year, or univoltine cycles. Univoltinism, associated with reproductive success for many temperate species, is related to stable fixed points of the developmental circle map. Univoltine fixed points are stable and robust in broad temperature bands, but lose stability suddenly to maladaptive cycles at the edges of these bands. Adaptive seasonality may therefore break down with little warning with constantly increasing or decreasing temperature change, as in scenarios for global warming. These ideas are illustrated and explored in the context of Mountain Pine Beetle (Dendroctonus ponderosae Hopkins) occurring in the marginal thermal habitat of central Idaho's Rocky Mountains. Applications of these techniques have not been widely explored by the applied math community, but are likely to provide great insight into the response of biological systems to climate change. 相似文献
999.
Yamane A 《Cell and tissue research》2005,322(2):183-189
This review summarizes findings concerning the unique developmental characteristics of mouse head muscles (mainly the masticatory
and tongue muscles) and compares their characteristics with those of other muscles. The developmental origin of the masticatory
muscles is the somitomeres, whereas the tongue and other muscles, such as the trunk (deep muscles of the back, body wall muscles)
and limb muscles, originate from the somites. The program controlling the early stages of masticatory myogenesis, such as
the specification and migration of muscle progenitor cells, is distinctly different from those in trunk and limb myogenesis.
Tongue myogenesis follows a similar regulatory program to that for limb myogenesis. Myogenesis and synaptogenesis in the masticatory
muscles are delayed in comparison with other muscles and are not complete even at birth, whereas the development of tongue
muscles proceeds faster than those of other muscles and ends at around birth. The regulatory programs for masticatory and
tongue myogenesis seem to depend on the developmental origins of the muscles, i.e., the origin being either a somite or somitomere,
whereas myogenesis and synaptogenesis seem to progress to serve the functional requirements of the masticatory and tongue
muscles.
This study was supported by grants-in-aid for funding scientific research (nos. 13671955 and 16591871), the Bio-ventures and
High-Technology Research Center of the Ministry of Education, Culture, Sports, Science, and Technology of Japan, and the Science
Research Promotion Fund from the Promotion and Mutual Aid Corporation for Private Schools of Japan. 相似文献
1000.
The developmental mechanisms behind developmental instability (DI) are only poorly understood. Nevertheless, fluctuating asymmetry (FA) is often used a surrogate for DI. Based on statistical arguments it is often assumed that individual levels of FA are only weakly associated with the underlying DI. Patterns in FA therefore need to be interpreted with caution, and should ideally be transformed into patterns in DI. In order to be able to achieve that, assumptions about the distribution of developmental errors must be made. Current models assume that errors during development are additive and independent such that they yield a normal distribution. The observation that the distribution of FA is often leptokurtic has been interpreted as evidence for between-individual variation in DI. This approach has led to unrealistically high estimates of between-individual variation in DI, and potentially incorrect interpretations of patterns in FA, especially at the individual level. Recently, it has been suggested that the high estimates of variation in DI may be biased upward because either developmental errors are log-normal or gamma distributed and/or low measurement resolution of FA. A proper estimation of the amount (and shape) of heterogeneity in DI is crucial for the interpretation of patterns in FA and their transformation into patterns in DI. Yet, incorrect model assumptions may render misleading inferences. We therefore develop a statistical model to evaluate the sensitivity of results under the normal error model against the two alternative distributions as well as to investigate the importance of low measurement resolution. An analysis of simulated and empirical data sets indicated that bias due to misspecification of the developmental error distribution can be substantial, yet, did not appear to reduce estimates of variation in DI in empirical data sets to a large extent. Effects of low measurement resolution were neglectable. The importance of these results are discussed in the context of the interpretation of patterns in FA. 相似文献