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1.
Rogelio Mací as-Ord ez Matt Draud 《Marine and Freshwater Behaviour and Physiology》2005,38(3):159-168
Body size is an essential variable in many behavioural and physiological studies. Previous methods for body size estimation present two conflicting drawbacks. They either (1) consider variation in only one dimension through linear measurements or (2) they are time and resource consuming, hard to apply in field conditions and/or stressful to the animal. We present a method for estimating body size, an ellipsoid approximation, which requires simple linear measurements and incorporates variation in three dimensions. The method is tested on two species of teleost fish and one species of insect. The amount of variance in mass explained by the proposed method exceeds that of previous reported methods, including the most accurate ones, that usually require expensive digitising procedures and/or stressful handling. 相似文献
2.
ANDRZEJ ELZANOWSKI MAŁGORZATA BIEŃKOWSKA‐WASILUK RAFAL CHODYŃ WIESŁAW BOGDANOWICZ 《Palaeontology》2012,55(6):1199-1221
Abstract: Two European species of the Diomedeoididae, an extinct family of procellariiform (tube‐nose) birds, have hitherto been distinguished primarily by size of their limb bones. Here, we describe an Early Oligocene (Rupelian) procellariifom coracoid that in all probability represents the larger species, Diomedeoides lipsiensis, and compare it to the coracoids of smaller diomedeoidids and extant procellariiforms. Using multivariate (Principal Component Analysis) and univariate analyses, we demonstrate that nearly all measurements are heavily size dependent, which makes the proportions and some other shape characters of little use as phylogenetic markers. Among eight measurements, the coracoid corpus width shows the highest correlation (higher than corpus depth) with body mass, permitting a precise calculation of over twofold difference in body mass between D. lipsiensis and smaller species. Among 16 qualitative characters analysed, the majority proved too variable to be used as markers of interfamily relationships and only 2–3, the ventral intermuscular line, sternocoracoid articulation (divided vs. undivided), and, with reservations, epimarginal crest vary consistently between the families. By far the most variable is the acrocoracoid process that tends to be deeper (more elongate dorsoventrally) in larger petrels but not in the albatrosses. However, the detailed shapes of the acrocoracoid heads are highly genus specific and suggest a genus‐level diversity among the Diomedeoididae from the Oligocene of Europe. The common features of the diomedeoidid coracoids are best interpreted as plesiomorphies, which accounts for some similarities to the Oceanitinae (that are probably basal among the crown‐group procellariiforms). The evidence from the coracoid is consistent with a stem‐group position of the Diomedeoididae as previously proposed by others. We emphasize the need of a group‐specific character analysis, primarily of allometries and levels of character variation, prior to a phylogenetic reconstruction. 相似文献
3.
Ontogenic changes in the allometric scaling of the mass and length relationship in Sprattus sprattus
An analysis of mass ( M ) and standard length ( L S ) data for larval, juvenile and adult sprat ( Sprattus sprattus ; Clupeidae) revealed marked changes in the allometric scaling factor ( b in ). For sprat <44 mm L S , b was 5·0, whereas in larger juveniles and adults, b was c. 3·4 indicating a relatively protracted metamorphic period for this species. 相似文献
4.
Taylor's law (TL), which states that variance in population density is related to mean density via a power law, and density‐mass allometry, which states that mean density is related to body mass via a power law, are two of the most widely observed patterns in ecology. Combining these two laws predicts that the variance in density is related to body mass via a power law (variance‐mass allometry). Marine size spectra are known to exhibit density‐mass allometry, but variance‐mass allometry has not been investigated. We show that variance and body mass in unexploited size spectrum models are related by a power law, and that this leads to TL with an exponent slightly <2. These simulated relationships are disrupted less by balanced harvesting, in which fishing effort is spread across a wide range of body sizes, than by size‐at‐entry fishing, in which only fish above a certain size may legally be caught. 相似文献
5.
Latitude, a surrogate of climatic conditions, is commonly used in the examination of life-history variation. However, the climatic mechanisms underlying latitudinal life-history variation have only rarely been tested. Here, we test whether the number of climates to which species are subjected in their ranges predicts geographical life-history variation. In particular, we examine whether eurytopic species, the range of which covers more climates, show different reproductive effort to stenotopic species, which are distributed over climatically more homogeneous environments. We examined female body mass, egg mass controlled for female body mass, clutch size and the number of breeding attempts per season for 34 sedentary and short-distance migratory passerine species of the Western Palearctic. For each species, we assessed how many climate zones extend over the species' wintering and breeding ranges. We found that avian body mass, and also clutch size, significantly increases with the number of climatic zones extended over the species' wintering range. In turn, species whose breeding ranges span more climates show more breeding attempts per season. Whereas the mass of a single egg declines, clutch size increases with increasing climatic variation in breeding ranges. Our study suggests that the level of climatic variation over species' ranges during and outside the breeding season might be responsible for variation in life-history traits in open-nesting Western Palearctic passerines. 相似文献
6.
7.
Suellen C. Gauld 《American journal of physical anthropology》1996,100(3):411-426
The interspecific allometry of five measures of total cranial bone thickness is examined in 10 extant catarrhine genera and two fossil hominid samples representing A. africanus and Asian H. erectus. Analysis of the modern sample shows that most interspecific variation in vault thickness can be accounted for by variation in body size. Correlation values are moderate to high (r = 0.75–0.98), and all variables exhibit positive allometry. The bone thickness:body mass relationship of modern humans broadly conforms with that of other primates. However, in the distribution of relative thickness throughout the skull, H. sapiens is distinguished by relative thickening of the parietal and extreme relative thinning of the temporal squama. The bone thickness:body mass relationship in the two early hominid species is examined using published mean body weight estimates generated from post-cranial predictor variables. A. africanus exhibits great similarity to modern humans in its relation to the catarrhine regression data and in the distribution of relative thickness throughout the skull. H. erectus also shows a modern human-like pattern in the distribution of its relative thickness; however, its bone thickness:body mass relationship is dissimilar to that displayed by all other taxa, including the other hominid species. On the basis of these results, it is suggested that the published body weight estimate assigned to H. erectus greatly underestimates actual mean body size for Asian members of this species. © 1996 Wiley-Liss, Inc. 相似文献
8.
coResearchers have long appreciated the significant relationship between body size and an animal's overall adaptive strategy and life history. However, much more emphasis has been placed on interpreting body size than on the actual calculation of it. One measure of size that is especially important for human evolutionary studies is stature. Despite a long history of investigation, stature estimation remains plagued by two methodological problems: (1) the choice of the statistical estimator, and (2) the choice of the reference population from which to derive the parameters.This work addresses both of these problems in estimating stature for fossil hominids, with special reference to A.L. 288-1 (Australopithecus afarensis) and WT 15000 (Homo erectus). Three reference samples of known stature with maximum humerus and femur lengths are used in this study: a large (n=2209) human sample from North America, a smaller sample of modern human pygmies (n=19) from Africa, and a sample of wild-collected African great apes (n=85). Five regression techniques are used to estimate stature in the fossil hominids using both univariate and multivariate parameters derived from the reference samples: classical calibration, inverse calibration, major axis, reduced major axis and the zero-intercept ratio model. We also explore a new diagnostic to test extrapolation and allometric differences with multivariate data, and we calculate 95% confidence intervals to examine the range of variation in estimates for A.L. 288-1, WT 15000 and the new Bouri hominid (contemporary with [corrected] Australopithecus garhi). Results frequently vary depending on whether the data are univariate or multivariate. Unique limb proportions and fragmented remains complicate the choice of estimator. We are usually left in the end with the classical calibrator as the best choice. It is the maximum likelihood estimator that performs best overall, especially in scenarios where extrapolation occurs away from the mean of the reference sample. The new diagnostic appears to be a quick and efficient way to determine at the outset whether extrapolation exists in size and/or shape of the long bones between the reference sample and the target specimen. 相似文献
9.
BackgroundEvidence suggests that birth weight may be associated with colorectal cancer (CRC) risk later in life. Whether the association is mediated by adult body size remains unexamined.MethodCox proportional hazards models (Hazard Ratio (HR) and 95 % Confidence Intervals (CI)) were used to evaluate the association between self-reported birth weight (<6 lbs, 6-<8 lbs, ≥8 lbs) and CRC risk among 70,397 postmenopausal women from the Women’s Health Initiative. Further, we assessed whether this association was mediated by adult body size using multiple mediation analyses.ResultsCompared with birth weights of 6-< 8 lbs, birth weight ≥ 8 lbs was associated with higher CRC risk in postmenopausal women (HR = 1.31, 95 % CI 1.16–1.48). This association was significantly mediated by adult height (proportion mediated =11.4 %), weight (11.2 %), waist circumference (10.9 %), and body mass index at baseline (4.0 %). The joint effect of adult height and weight explained 21.6 % of this positive association.ConclusionOur data support the hypothesis that the intrauterine environment and fetal development may be related to the risk of developing CRC later in life. While adult body size partially explains this association, further investigation is required to identify other factors that mediate the link between birth weight and CRC. 相似文献
10.
Abstract. Teneral reserve components (soluble sugars, glycogen, lipids), as well as proteins, of laboratory-reared yellow dung flies ( Scathophaga stercoraria ) are shown to increase hypo-allometrically (slope < 1) with body size. This is also true for sugars and glycogen of field-caught reproductive flies, the lipid content of which however, increases hyper-allometrically (slope > 1), probably related to foraging or reproductive activity. The longevity, or starvation resistance, of adults subsisting exclusively on their teneral reserves equally increases with body size, and this positive relationship remains when flies have access to sugar, pollen or prey for 24 h after emergence. Energy use, by contrast, is generally not body size dependent, except for lipid (and possibly glycogen) utilization when flies were completely starved. All the results obtained are independent of sex after controlling for sexual size dimorphism. These net results clearly support the greater energy efficiency of larger flies (Kleiber's law), whereas only weak evidence is obtained in support of the contrasting hypothesis of greater absolute energy demands of larger individuals, possibly because such effects are likely masked by stronger size-dependent anabolic effects. 相似文献
11.
A new look at the scaling of size in mammalian eyes 总被引:1,自引:0,他引:1
R. F. Burton 《Journal of Zoology》2006,269(2):225-232
12.
The island rule states that small mammals isolated on islands have the evolutionary tendency to become larger, while large mammals tend to become smaller. However, the underlying mechanisms and life history consequences of these insular shifts in body size still remain speculative. The aim of this study was to investigate whether an arboreal mammal, the edible dormouse (Glis glis), showed shifts in body size when inhabiting isolated forest fragments. We analysed a data set of 541 individuals captured between 2005 and 2010 in four different forest fragments and one continuous forest, which served as a reference area. Sex, age, body mass, and size of all individuals were known. We used linear mixed-effect models to investigate whether individuals differed in their body size and mass between forest fragments and continuous forest. Our study revealed that edible dormice inhabiting forest fragments were significantly larger and heavier than individuals in the continuous forest, in accordance with patterns described by the island rule for small mammals. Because edible dormice frequently use nest boxes to rest during the day and to rear offspring, the life history strategies of this rodent can be easily investigated under evolutionary relevant conditions in the field. Thus the edible dormouse represents an excellent model organism for studying the mechanisms underlying shifts in body size as a response to habitat fragmentation and to investigate the consequences of these shifts on their life history strategies. 相似文献
13.
植物功能性状可反映植物对环境的适应。在祁连山高寒退化草地,利用Arc GIS建立研究区域的数字高程模型,提取坡向数据,采用标准化主轴估计方法(standardized major axis estimation,SMA),研究了不同坡向甘肃臭草(Melica przewalskyi)叶性状间的关系。结果表明:1)甘肃臭草叶面积和叶体积在北坡最大,东坡、西坡、南坡逐渐减小,叶干质量无显著变化;2)叶面积与叶干质量在北坡、东坡和西坡呈等速生长关系,在南坡呈异速生长关系,且叶干质量的增长速度大于叶面积的增长速度;3)叶体积与叶干质量在4个坡向上呈异速生长关系,且叶干质量的增长速度均小于叶体积的增长速度。甘肃臭草叶性状关系随坡向的变化反映了该物种在异质生境中具有较强的叶片形态可塑性,从而有利于其适应和占据高寒退化生境。 相似文献
14.
Adult butterflies and moths (Lepidoptera) use their proboscises to feed on flower nectar and other types of liquid food. Aphids frequently secrete honeydew from their anuses, attracting various types of insects, such as ants. Adult lepidopterans are also known to feed on aphid honeydew. However, very few studies have clarified the species composition and morphology of moths feeding on aphid honeydew. In late June 2017, we found nocturnal moths sipping honeydew secreted by Shivaphis celti and Sitobion cornifoliae (Hemiptera: Aphididae) on leaves of Celtis sinensis (Cannabaceae) and Cornus kousa (Cornaceae), respectively, at the edge of a secondary forest in central Japan. The moths were observed to uncoil their proboscises and feed on honeydew on the leaves. No moths were observed to feed on honeydew directly from aphids. Nocturnal moths of 60 species (11 families) and 16 species (7 families) were collected from honeydew on Ce. sinensis and Co. kousa leaves, respectively. Eleven moth species were shared between the two types of honeydew. The most abundant species, Oncocera semirubella (Lepidoptera: Pyralidae), accounted for 44.7% of all individuals. The sex ratio of O. semirubella was female biased. Of the 65 moth species collected on aphid honeydew, 52.3% (34 species) have been previously reported to visit flowers. Moths visiting honeydew had relatively short proboscises and small body size. These results suggest that aphid honeydew is an important, accessible food resource for moths of small size. 相似文献
15.
Over the years, models and concepts developed to explain the behaviour of lake plankton have been generalized and extended to most parts of the limnetic community. This development has now fused with parallel research programs into stream and marine benthos and fish, to yield an imposing literature dealing with complex interactions in aquatic communities. Although the size of this literature has grown, its basic elements, i.e. the allometries of organismal capacity and environmental opportunity, remain those associated with the seminal size efficiency hypothesis. Unfortunately, the difficulties that eventually buried that hypothesis in a welter of detail and special cases were not resolved, so the newer, broader concepts associated with complex interactions remain difficult or impossible to test. Those concepts are so subjective, poorly defined, and variably interpreted that they are more effective in explaining our observations after the fact than in predicting them before-hand. Despite predictive failure, such explanatory models have achieved wide acceptance. Once accepted as substitutes for predictive theory, they mire the advance of science by hiding its deficiencies. One solution to this cloying complexity is insistence that the theories of ecology specify simple, observable response variables so that theories may be evaluated by their predictive power. Components of a general refuge concept illustrate the point. This policy has implications for environmental science well beyond the confines of plankton ecology.Dedicated to Dr Karl Banse, School of Oceanography, University of Washington on his 60th Birthday. 相似文献
16.
植物功能性状可反映植物对环境的适应。在祁连山高寒退化草地, 利用ArcGIS建立研究区域的数字高程模型, 提取坡向数据, 采用标准化主轴估计方法(standardized major axis estimation, SMA), 研究了不同坡向甘肃臭草(Melica przewalskyi)叶性状间的关系。结果表明: 1)甘肃臭草叶面积和叶体积在北坡最大, 东坡、西坡、南坡逐渐减小, 叶干质量无显著变化; 2)叶面积与叶干质量在北坡、东坡和西坡呈等速生长关系, 在南坡呈异速生长关系, 且叶干质量的增长速度大于叶面积的增长速度; 3)叶体积与叶干质量在4个坡向上呈异速生长关系, 且叶干质量的增长速度均小于叶体积的增长速度。甘肃臭草叶性状关系随坡向的变化反映了该物种在异质生境中具有较强的叶片形态可塑性, 从而有利于其适应和占据高寒退化生境。 相似文献
17.
The taxonomic status of the small bodied hominin, Homo floresiensis, remains controversial. One contentious aspect of the debate concerns the small brain size estimated for specimen LB1 (Liang Bua 1). Based on intraspecific mammalian allometric relationships between brain and body size, it has been argued that the brain of LB1 is too small for its body mass and is therefore likely to be pathological. The relevance and general applicability of these scaling rules has, however, been challenged, and it is not known whether highly encephalized primates adapt to insular habitats in a consistent manner. Here, an analysis of brain and body size evolution in seven extant insular primates reveals that although insular primates follow the ‘island rule’, having consistently reduced body masses compared with their mainland relatives, neither brain mass nor relative brain size follow similar patterns, contrary to expectations that energetic constraints will favour decreased relative brain size. Brain:body scaling relationships previously used to assess the plausibility of dwarfism in H. floresiensis tend to underestimate body masses of insular primates. In contrast, under a number of phylogenetic scenarios, the evolution of brain and body mass in H. floresiensis is consistent with patterns observed in other insular primates. 相似文献
18.
Olga Jordi 《Bird Study》2016,63(2):273-278
Capsule: Chick growth rates was sex-dependent in an Atlantic Yellow-legged Gull Larus michahellis population.
Aims: To describe the growth rate of Yellow-legged Gull chicks and sex-associated variations, and obtain a discriminant function to sex them using morphological data.
Methods: Fifty-two Yellow-legged Gull chicks from a colony in northern Iberia were measured for body mass, head and bill length, tarsus length and three other bill-length associated variables, from the hatching date up to the age of 36 days. Birds were sexed using DNA analysis.
Results: Using logistic models, chick growth rates was observed to be similar between the sexes, while the asymptote was higher among males for the majority of the variables. Discriminant analyses showed that the variable head+bill was very reliable to predict the sex of >80% of chicks at an early developmental stage, and 100% of chicks if combined with tarsus length and two more bill-length associated variables at the age of 35 days.
Conclusions: This is the first study using a discriminant analysis to sex Yellow-legged Gull chicks, and also the first to describe the growth function for the species. The growth rate varied between sexes because males showed higher asymptote values within the growth function. 相似文献
19.
中国地鼠雌鼠的动情周期为4.0d,动情期阴道粘液呈碱性。妊娠期平均20.05d。受孕后阴道口出现的黑色栓子可做为早期妊娠的依据。幼鼠性成熟一般在55.0日龄,雄鼠稍早于雌性。成年雌鼠平均体重36.5g,体长8.8cm;雄鼠体重32.5g体长9.9cm。经累代近交的高世代鼠体形有减小趋势。 相似文献
20.
Alejandro Gonzalez‐Voyer Manuela González‐Suárez Carles Vilà Eloy Revilla 《Evolution; international journal of organic evolution》2016,70(6):1364-1375
Although previous studies have addressed the question of why large brains evolved, we have limited understanding of potential beneficial or detrimental effects of enlarged brain size in the face of current threats. Using novel phylogenetic path analysis, we evaluated how brain size directly and indirectly, via its effects on life history and ecology, influences vulnerability to extinction across 474 mammalian species. We found that larger brains, controlling for body size, indirectly increase vulnerability to extinction by extending the gestation period, increasing weaning age, and limiting litter sizes. However, we found no evidence of direct, beneficial, or detrimental effects of brain size on vulnerability to extinction, even when we explicitly considered the different types of threats that lead to vulnerability. Order‐specific analyses revealed qualitatively similar patterns for Carnivora and Artiodactyla. Interestingly, for Primates, we found that larger brain size was directly (and indirectly) associated with increased vulnerability to extinction. Our results indicate that under current conditions, the constraints on life history imposed by large brains outweigh the potential benefits, undermining the resilience of the studied mammals. Contrary to the selective forces that have favored increased brain size throughout evolutionary history, at present, larger brains have become a burden for mammals. 相似文献