Allometric relationship between oxygen consumption and body weight of mosquitofish,Gambusia affinis

Synopsis The allometric relationship between body size and oxygen consumption of Gambusia affinis at 28° C was determined under controlled experimental conditions, using a manometric respirometer. The allometric exponent (b-value) was 0.64 ± 0.02 S.E. (n = 51). Oxygen consumption was not influenced by any time-related factors during the 17 days of measurements. Variance between replicated oxygen consumption trials on individual fish was negligible. Specific oxygen consumption rates of several G. affinis at 28° C that were determined by using a sealed vessel and O₂ electrode respirometry method were similar to the rates measured by the manometric respirometry method in similar-sized G. affinis.     

The regulation index: a new method for assessing the relationship between oxygen consumption and environmental oxygen

Critical oxygen pressure (P(C)) is used in respiratory physiology to measure the response to hypoxia. P(C) defines the partial pressure of oxygen (Po(2)) at which an oxygen regulator switches to a conformer. However, not all animals show such clear patterns in oxygen consumption rate (Mo2), and there are many methods for determining P(C). This study assesses two methods that determine regulatory ability and four that calculate P(C). A new method, the regulation index (RI), assigns to an animal a relative measure of regulatory ability by calculating the area under the Mo2 versus Po(2) curve that is greater than a linear trend. The six methods are applied to developmental Mo2 data of two amphibians, Pseudophryne bibronii and Crinia georgiana. The four methods used to determine P(C) produced similar results but failed to identify the increase in regulation on hatching in C. georgiana or the greater regulation in larval C. georgiana compared with P. bibronii. Of the two methods that evaluated regulation, only the RI satisfactorily represented the entire range of Po(2). The RI is advantageous because it has clearly defined limits and does not constrain data to fit any single pattern. The RI can be used in concert with P(C), which can be easily calculated during the RI analysis, to provide a clearer definition of the Mo2 response to environmental Po(2).     

The relationship between two different mechanical cost functions and muscle oxygen consumption

Inverse-dynamic models often use cost functions to solve the load-sharing problem. Although it is often assumed that energy is minimised, most cost functions are based on mechanically related measures like muscle force or stress. The aim of this study was to analyse the relationships of two cost functions with experimentally determined data on muscle energy consumption. Four subjects performed isometric contractions generating combinations of elbow flexion/extension and pro/supination moments. Muscle oxygen consumption (VO2) of the m. biceps breve, m. biceps longum, m. brachioradialis and m. triceps laterale was measured with near infrared spectroscopy. Both cost functions were implemented into an existing inverse-dynamic shoulder and elbow model and the individual cost values per muscle were calculated, normalised and subsequently compared to experimental VO2 values. The minimum stress cost function led to a good correspondence between VO2 and cost for the m. triceps laterale but for the flexor muscles cost was significantly lower. A newly proposed energy-related cost function showed, however, a far better correspondence. The inclusion of a linear term and muscle mass in the new criterion led model results to correspond better to experimental results. The energy-related cost function appeared to be a better measure for muscle energy consumption than the stress cost function and led to more realistic predictions of muscle activation.     

The relationship between energy-dependent phagocytosis and the rate of oxygen consumption in Tetrahymena.

The induction of high rates of food vacuole formation in Tetrahymena pyriformis increased the rate of respiration in exponentially growing cells by 17% and in starving cells by 47.5%. The increased rate of oxygen uptake was caused by phagocytosis itself, as shown by comparing the rates of respiration of a Tetrahymena mutant exposed to particles at the permissive or restrictive temperatures for food vacuole formation. During cell division, heat-synchronized cells in rich, particle-supplemented medium showed a significant decrease in the rate of respiration. Furthermore, dimethyl sulphoxide, in concentrations sufficient to block food vacuole formation, suppressed the rate of respiration to a level similar to that of starved cells. Cytochalasin B, fowever, did not reduce the rate of oxygen uptake despite the inability of the cells to complete the formation of food vacuoles during treatment; a possible explanation for this finding is discussed. There was a strong correlation between formation of food vacuoles and a high metabolic rate in Tetrahymena.     

Influence of a broad temperature range on the oxygen consumption rates of three desert lizard species

Oxygen consumption rates of three desert lizard species: (Acanthodactylus boskianus, Lacertidae; Scincus mitranus, Scincidae; Diplometopon zarudnyi, Amphisbaenidae) were determined in relation to ambient temperatures ranging from 10 to 35 degrees C using a double-chamber, volumetric closed system. The interspecific differences in the oxygen consumption rates were found to have a close relationship between the characteristics of the M-T curves, the thermoregulatory behaviour and the ecology of the respective species. The M-T curves of the studied lizards were specifically modified and adjusted to their climatic region.     

鲇鱼力竭性运动后的过量耗氧及其体重的影响

过量耗氧(EPOC)是衡量动物无氧代谢能力的重要生理指标,本研究在25℃条件下对不同体重组鲇鱼Silurus asotus Linnaeus(<30g、30-50g、50-100g和>100g)力竭性运动后EPOC进行了测定,旨在揭示不同体重鱼类在EPOC方面的适应机制.实验结果显示:鲇鱼力竭性运动后耗氧率(VO2)峰值立即出现(2min), 随后逐渐恢复到稳定状态水平.本研究根据实验数据统计分析结果,提出了力竭运动后鲇鱼 VO2恢复过程的数学模型(VO2=a be-ct),并对其中参数的生物学意义进行阐述.通过对各体重组过量耗氧参数(a、b和 c)的分析比较,发现鲇鱼体重的增加使有氧代谢能力降低,无氧代谢的能力却有较大提高.     

Evidence for an inverse relationship between the ventilatory response to exercise and the maximum whole body oxygen consumption value

Ventilatory responses to submaximal exercise loads indicate that in a population of 895 physically active and sedentary male and female subjects, exercise ventilation is inversely related to predicted VO2max. The correlation coefficients for males and females in this relationship are 0.61 (P less than 0.0001) and 0.26 (P less than 0.0001) respectively. The slopes of regression lines for VE/VO2 and VO2max in female and male subjects are -2.59 and -0.91 respectively. This is associated with changes in composition of the expired air in that PCO2 increases and PO2 decreases with greater VO2max. The difference between the mean oxygen and carbon dioxide partial pressures in expired air of individuals in the highest and lowest VO2max ranges are 1.2 kPa (9 mm Hg) and 0.8 kPa (6 mm Hg) respectively.     

The relationship between fish species richness, abundance and habitat complexity in a range of shallow tropical marine habitats

A simple habitat assessment score (HAS) was designed to assess habitat complexity across several different shallow tropical marine habitats including sandy patches, algal beds, seagrass beds and reefs. It measured rugosity, variety of growth forms, height, refuge size categories, percentage live cover and percentage hard substratum. Multiple regression models using HAS variables as predictors accounted for 71 and 22% of the variation in observed species richness and total fish abundance respectively. The two most important predictors of observed species richness were rugosity and variety of growth forms, while height was the most important predictor of total fish abundance. The HAS method worked consistently across a variety of habitat types and the complexity map closely mirrored the map of observed species richness, reflecting the patchy habitat mosaic of shallow tropical marine areas. Stations at the mouth of an enclosed lagoon, however, had a higher number of species than might have been expected judging from the habitat complexity scores. It is possible that this was linked to the preferential settling of pelagic fish larvae in this area as tidal water exchanges between the bay and the reef were funnelled through one small gap. This study highlights the need for fish biodiversity studies to take habitat complexity into account.     

The relationship between ETS (electron transport system) activity and oxygen consumption in lake plankton: a cross-system calibration

The ETS (electron transport system) assay to measure respirationof aquatic organisms has been widely applied in studies of marinemetabolism, but its use in freshwaters has been much more limited.This method calculates oxygen consumption from the measuredETS activity using an empirical conversion factor. This factorhas been calculated for various marine organisms, and for naturalplankton communities, but calibrations for freshwater organismsare lacking. The aim of this paper was to determine the relationshipbetween lake plankton respiration and ETS activity, based onmeasured epilimnetic plankton oxygen uptake and ELS activityin 20 southern Quebéc lakes. The relationship betweenplankton oxygen consumption and ETS varies significantly bothwithin lakes over the growing season, and among lakes. The magnitudeof the error associated with calculating respiration from ETSis, however, similar to the error in other standard limnologicalprocedures used in plankton carbon flow studies. Oxygen consumptionis not a linear function of ETS across the range of lakes, butis rather a power function. The respiration:ETS ratio for lakeplankton therefore not constant: it is high in oligotrophicand colored lakes, and declines with trophy. These results areconsistent with the changes expected in the structure of theplankton along trophic gradients.     

The relationship between range size and niche breadth: a test using five species of Gammarus (Amphipoda)

Data for five closely related species of gammarid crustaceans are used to examine interspecific relationships between the breadth of fundamental tolerance or capacity and geographical range size. Gammarus duebeni is, almost without exception, the most tolerant species and that with the best physiological performance. Although there is some limited variation, the remaining species can be ranked broadly in the sequence G. zaddachi  > G. salinus  >  G. oceanicus > G. locusta . The wide tolerance and high performance of G. duebeni is associated with the occupation of a wider range of environmental 'types' than any other of the species. In terms of geographical range size, the species can be ranked from most to least widespread in the sequence G. oceanicus  > G. duebeni  >  G. zaddachi  >  G. salinus  >  G. locusta . This provides little support for Brown's hypothesis, or the argument that the more widely distributed species within a taxonomic assemblage also tend to have the widest fundamental niches. However, if marine ( G. oceanicus and G. locusta ) and estuarine ( G. duebeni , G. zaddachi , G. salinus) species are considered separately, then in each case the species with the largest geographical range is also the most tolerant/best performer. In this sense, the jack-of-all-trades is the master-of-all, rather than the master-of-none.     

The effects of acclimatization on body weight and oxygen consumption in Dipodomys panamintinus

• 1.1. Seasonal acclimatization effects on oxygen consumption, body temperature, and body weight were evaluated in three different experimental groups of Dipodomys panamintinus.
• 2.2. Body weights of wild field as well as captive animals housed in outdoor sand cages were maximum in winter and lowest in summer for both sexes.
• 3.3. Mean oxygen consumption was maximum in winter and lowest during spring in both sexes of the wild field and captive exposed groups.
• 4.4. Neither weight nor oxygen consumption of indoor control animals varied with the seasons.
• 5.5. No significant differences in body temperatures were observed during either the fall or winter seasons.

     

Introduction beyond a species range: a relationship between population origin,adaptive potential and plant performance

The adaptive potential of a population defines its importance for species survival in changing environmental conditions such as global climate change. Very few empirical studies have examined adaptive potential across species'' ranges, namely, of edge vs core populations, and we are unaware of a study that has tested adaptive potential (namely, variation in adaptive traits) and measured performance of such populations in conditions not currently experienced by the species but expected in the future. Here we report the results of a Triticum dicoccoides population study that employed transplant experiments and analysis of quantitative trait variation. Two populations at the opposite edges of the species range (1) were locally adapted; (2) had lower adaptive potential (inferred from the extent of genetic quantitative trait variation) than the two core populations; and (3) were outperformed by the plants from the core population in the novel environment. The fact that plants from the species arid edge performed worse than plants from the more mesic core in extreme drought conditions beyond the present climatic envelope of the species implies that usage of peripheral populations for conservation purposes must be based on intensive sampling of among-population variation.     

The interspecific range size–body size relationship in Australian frogs

Aim There is substantial residual scatter about the positive range size–body size relationship in Australian frogs. We test whether species’ life history and abundance can account for this residual scatter. Location Australia. Methods Multiple regressions were performed using both cross‐species and independent contrasts analyses to determine whether clutch size, egg size and species abundance account for variation in range size over and above the effects of body size. Results In both cross‐species and independents contrasts models with body size, clutch size and egg size as predictors, partial r² values revealed that only egg size was significantly and uniquely related to range size. Contrary to expectation, neither body size nor clutch size could account for significant variation in range size. Incorporating species abundance as a predictor in further multiple regression analysis demonstrated that while abundance accounted for a significant proportion of range size variation, the contribution of egg size was reduced but still significant. Notably, non‐significant relationships persisted between range size and both body size and clutch size. Conclusions The weak positive correlation between body size and range size in Australian frogs disappears after accounting for species abundance and egg size. Our findings demonstrate that species with both high local abundance and small eggs occupy comparatively wider geographical ranges than species with low abundance and large eggs.     

The relationship between dispersal ability and geographic range size

There are a variety of proposed evolutionary and ecological explanations for why some species have more extensive geographical ranges than others. One of the most common explanations is variation in species' dispersal ability. However, the purported relationship between dispersal distance and range size has been subjected to few theoretical investigations, and empirical tests reach conflicting conclusions. We attempt to reconcile the equivocal results of previous studies by reviewing and synthesizing quantitative dispersal data, examining the relationship between average dispersal ability and range size for different spatial scales, regions and taxonomic groups. We use extensive data from marine taxa whose average dispersal varies by seven orders of magnitude. Our results suggest dispersal is not a general determinant of range size, but can play an important role in some circumstances. We also review the mechanistic theories proposed to explain a positive relationship between range size and dispersal and explore their underlying rationales and supporting or refuting evidence. Despite numerous studies assuming a priori that dispersal influences range size, this is the first comprehensive conceptual evaluation of these ideas. Overall, our results indicate that although dispersal can be an important process moderating species' distributions, increased attention should be paid to other processes responsible for range size variation.