Your search keyword '"body mass"' showing total 7,545 results

1. Metabolic rate and foraging behaviour: a mechanistic link across body size and temperature gradients.

Author

Shokri, Milad, Cozzoli, Francesco, and Basset, Alberto

Subjects

*BODY temperature, *BODY size, *METABOLIC models, *CLIMATE change, *PHENOTYPES

Abstract

The mechanistic link between metabolic rate and foraging behaviour is a crucial aspect of several energy‐based ecological theories. Despite its importance to ecology however, it remains unclear whether and how energy requirements and behavioural patterns are mechanistically connected. Here we aimed to assess how modes of behaviour, including cumulative space use, patch selection and time spent in an experimental resource‐patchy environment, are related to a forager's standard metabolic rate (SMR) and its main determinants, i.e. body mass and temperature. We tested the individual behavioural patterns and metabolic rates of a model organism, the amphipod Gammarus insensibilis, across a range of body masses and temperatures. We demonstrated quantitatively that body mass and temperature exert a major influence on foraging decisions and space use behaviour via their effects on metabolic rates and the marginal value of energy. Individual cumulative space use was found to scale allometrically with body mass and exponentially with temperature, with patch giving‐up time falling as body mass and temperature increased. In response to warmer temperatures, the specimens adaptively intensified their foraging effort and explored larger spaces to offset the elevated SMR. Our results showed that SMR explained more variation than body mass and temperature combined, and had greater predictive power for behavioural patterns. Furthermore, foraging decisions regarding patch choice and partitioning were strongly related to mass‐and‐temperature‐adjusted SMR (residual), which is a component of metabolic phenotype. Individuals with higher M–T adjusted SMR initially preferred the most profitable patch and, as time progressed, abandoned the patch earlier and explored more space than the others. These results demonstrate that foraging decisions are intimately associated with variations in standard metabolic rate, whether phenotypic or due to size and temperature combined. This, in turn, sheds light on higher‐order energy‐based ecological processes. [ABSTRACT FROM AUTHOR]

Published

2024

2. A country‐wide examination of effects of urbanization on common birds.

Author

Brouwer, L., de Vries, E.H.J., Sierdsema, H., and van der Jeugd, H.P.

Subjects

*URBAN ecology, *BIRD conservation, *GREAT tit, *PASSERIFORMES, *CONSERVATION of mass, *ENGLISH sparrow

Abstract

Urbanization forms one of the most drastic alterations of the environment and poses a major threat to wildlife. The human–induced modifications of the landscape may affect individual's fitness resulting in population declines. Research on how urbanization affects fitness traits has shown mixed results. However, studies typically contrasted data from a single species from few urban and non‐urban sites collected over short timeframes. Examining multiple species across a broad urbanization gradient enables a more robust comparison and understanding of how different species are impacted by urbanization‐knowledge crucial for generating population predictions, which are essential for conservation management. Here, we use data from a nation‐wide citizen science project to examine variation in survival and relative body mass and size (wing length) of common passerine birds, collected along an urbanization gradient in the Netherlands over an 8‐year period. Urbanization was measured as the distance from the city's border and the proportion of impervious surface area. Although the overall association between urbanization and survival was slightly negative, there was support for lower survival closer to the city in three species (chiffchaff Phylloscopus collybita, European robin Erithacus rubecula, European greenfinch Chloris chloris) and higher survival closer to the city in two (great tit Parus major and house sparrow Passer domesticus) of the 11 species examined. The contrasting survival successes among species suggest that ongoing urbanization may lead to shifts in community structure and loss of biodiversity. Impacts of urbanization on relative mass and size also exhibited varying effects, albeit less pronounced, and these effects were not correlated with the effects on survival. This implies that body mass and size cannot be used as indicators for urban‐associated patterns of survival. Our results further imply that effective conservation management targeting bird communities should involve a range of diverse actions, as focusing on single measures is unlikely to simultaneously impact multiple species due to the variation in responses to urbanization. [ABSTRACT FROM AUTHOR]

Published

2024

3. Ecological succession shapes size–density scaling relationships of trees and soil invertebrates.

Author

Romera, Poppy Joaquina, Wallace, Kiri Joy, McCarthy, James K., Rai, Bibishan, Mitchell, Grace, Eisenhauer, Nico, Lusk, Christopher H., and Barnes, Andrew D.

Subjects

*ECOLOGICAL succession, *INVERTEBRATE communities, *SOIL animals, *SECONDARY forests, *SOIL invertebrates, *FOREST succession

Abstract

The widely observed negative scaling relationship between organism size and abundance is predicted to have a universal −0.75 scaling exponent across all life forms. However, factors influencing frequently observed deviations from this exponent, such as ecosystem succession and organism traits, remain poorly understood.We explore the dependence of size–density scaling on ecosystem succession and organism traits by analysing size–density relationships in trees and soil invertebrates across 183 temperate forest plots comprising urban secondary forests, urban old‐growth forests and non‐urban natural forests.Exponents of scaling relationships in urban tree and invertebrate communities progressively steepened with increasing restored (planted) forest stand age as small organisms increased in abundance. In contrast, non‐urban tree scaling relationships flattened during succession with exponents veering away from −0.75, whereas urban tree and invertebrate communities converged towards this prediction in later successional stages.Our results shed light on how the body size structure of tree and soil invertebrate communities spanning multiple trophic levels shift over successional time as the relative abundances of large versus small‐bodied organisms increase. This study emphasises the fundamental influence of organismal traits and ecosystem succession on scaling relationships of organism body size and abundance. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

4. The path less traveled: Using structural equation modeling to investigate factors influencing bone functional morphology.

Author

Johnston, Rob'yn A. and Cowgill, Libby W.

Subjects

*LEAN body mass, *HEALTH & Nutrition Examination Survey, *STRUCTURAL equation modeling, *BONE resorption, *MUSCLE strength

Abstract

Objectives: The relationship between an organism's mechanical environment and its bone strength has been long established by experimental research. Multiple intrinsic and extrinsic factors, including body mass, muscle strength, genetic background, and nutritional and/or hormonal status, are likely to influence bone deposition and resorption throughout the lifespan, complicating this relationship. Structural equation modeling (SEM) is uniquely positioned to parse this complex set of influences. Materials and Methods: Data from the Third National Health and Nutrition Examination Survey, including sex, total body mass, lean body mass, exercise frequency, peak body mass, and age, were analyzed using SEM to determine how they affect bone strength both individually and combined. Results: Body mass is typically the driver of cross‐sectional area, but body mass and lean mass have similar effects on the polar moment of area (J). Peak body mass had a strong direct effect on J, despite decreasing strongly with increases in lean mass. Exercise also did not confer a large direct effect on cross‐sectional area or J but did modify body mass and lean mass. In females, intentional weight loss was associated with decreased exercise levels. Discussion: SEM is a useful tool for parsing complex systems in bone functional morphology and has the potential to uncover causal links in the study of skeletal remodeling, including factors like weight loss or exercise that may have secondary effects. [ABSTRACT FROM AUTHOR]

Published

2024

5. Pinnipeds with proportionally wider aortic bulbs make longer dives.

Author

Storlund, Rhea L., Rosen, David A. S., and Trites, Andrew W.

Subjects

BODY size, AORTA, PINNIPEDIA, DIVING, ALLOMETRY, MARINE mammals

Abstract

The enlarged size of the aortic bulb is thought to enhance the ability of marine mammals to remain underwater for extended periods. However, a convincing link between aortic bulb size and diving capacity has not been established. Using new and existing data, we examined the relationships between body size, maximum and routine dive duration, and aortic bulb size of pinnipeds. Comparisons among seven species of pinnipeds showed that the diameter of the aortic bulb increases allometrically with body mass (aortic bulb diameter = 0.58 × body mass0.41). We also found a linear relationship between routine dive duration and relative aortic bulb diameter (routine dive duration = 0.20 × relative aortic bulb diameter − 3.30), but no apparent relationship with maximum dive duration. Our results indicate that relative aortic bulb diameter influences diving capacity, providing further evidence that the aortic bulb is an adaptation to diving. Specifically, the relative diameter of the aortic bulb partially determines how long pinnipeds can routinely remain underwater. This has implications for the ability of different species of marine mammals to adapt to projected environmental changes and effectively forage or evade threats in altered habitats. [ABSTRACT FROM AUTHOR]

Published

2024

6. Increased nest temperature during winter does not affect residual yolk metabolism of hatchling painted turtles (Chrysemys picta)

Author

WARNER, Daniel A., MITCHELL, Timothy S., and JANZEN, Fredric J.

Subjects

*SPRING, *BODY temperature, *TEMPERATURE effect, *CLIMATE change, *HIGH temperatures

Abstract

Rising global temperatures have a wide range of effects at organismal, population, and ecosystem levels. Increased winter temperatures are expected to alter the energetics of species that are dormant during this time. Hatchling painted turtles (Chrysemys picta) spend their first ∼8 months in shallow nests on land, where they putatively rely on residual yolk reserves to fuel energetic demands during this period of inactivity before they emerge in the spring. We performed a laboratory experiment to characterize changes in residual yolk quantity in hatchling C. picta and experimentally tested the effect of temperature on residual yolk, hatchling size, and survival over the winter brumation period. We manipulated winter nest temperature by simulating two natural thermal regimes (“low” vs “high” treatments) and one regime that approximates warmer temperatures expected by 2100 (“future” treatment). Because high temperature increases metabolism, we predicted that the future temperature treatment would decrease the amount of residual yolk remaining by the end of winter and reduce hatchling mass and survival. Residual yolk over winter did not differ from that before winter, and the temperature had no effect on the quantity of residual yolk or hatchling survival by the following spring. However, hatchlings that experienced future temperatures lost more mass over winter than those from the other treatments. These results correspond with previous work indicating that residual yolk does not fuel the energetic needs of hatchlings during winter. The effect of future warming temperatures on body mass may have negative consequences during energetically demanding activities during spring emergence and dispersal. [ABSTRACT FROM AUTHOR]

Published

2024

7. Artificial Light at Night Increases Growth and Impairs Reproductive Success in Budgerigars (Melopsittacus undulatus) in a Duration Dose-Dependent Manner.

Author

Itay, Malek and Haim, Abraham

Subjects

*BUDGERIGAR, *LIGHT pollution, *ENVIRONMENTAL health, *BIOLOGICAL fitness, *POLLUTION

Abstract

Simple Summary: Artificial light at night (ALAN) is increasingly being recognized as a new and rapidly growing form of environmental pollution that may impose severe health and ecological consequences. In our study, we examined the effects of bright ALAN exposure with increasing duration on growth and reproduction success in Budgerigars (Melopsittacus undulatus). Strong correlations have been detected between artificial light at night, melatonin sulfate levels, and both body mass and reproductive success. ALAN increased body mass gain and reduced reproduction efficiency in exposed birds compared with controls. Additionally, melatonin levels were also suppressed in an exposure dose-dependent manner, suggesting a role for the hormone suppression in mediating the effects of the environmental exposure on the growth and reproduction responses of Budgerigars. Short-wavelength artificial light at night is increasingly being associated with health and ecological risks. The negative impact of this relatively new source of pollution has been studied intensively in wild birds but to a much lesser extent in captive conspecifics. Using an avian model, our objective was to evaluate the effects of short-wavelength (200 lux at 460 nm) lighting on the body mass and reproductive success of Budgerigars (Melopsittacus undulatus) under captive conditions. Birds were maintained under a naturally increasing photoperiod from March to June, with one daily artificial light at night exposure of increasing duration (0, 30, 60, and 90 min) in the middle of the dark period. During the experiments, birds were monitored monthly for body mass, number of eggs laid, hatching success, and melatonin sulfate levels in droppings. Artificial light at night increased body mass and decreased melatonin sulfate levels as well as the number of eggs and hatching success in a duration dose-dependent manner. Our findings provide further evidence of the potential adverse impact of artificial light at night on captive birds and advocate the need for effective controlling measures for light pollution. [ABSTRACT FROM AUTHOR]

Published

2024

8. Identifying the key body size and maturity characteristics associated with superior physical fitness performance tests: does one size fit all?

Author

Nevill, Alan M., Duncan, Michael J., Nobre, Glauber C., Gaya, Adroaldo, Myers, Tony, and Mello, Júlio B.

Subjects

*PHYSICAL fitness testing, *ATHLETIC ability, *PHYSICAL mobility, *MEDICINE balls, *SCOUTING (Athletics)

Abstract

Purpose: To examine which key body size characteristics are common to success when performing a variety of physical fitness tests and, at the same time, to identify further characteristics that benefit only specific fitness tests. Methods: Cross-sectional study carried out with data from 94,484 6–18 year olds. The physical fitness tests were: 1) 20-m sprint test, 2) four-square agility test, 3) abdominal strength test (sit-ups/min), 4) horizontal jump test, 5) seated 2 kg medicine ball throw test and 6) a cardiorespiratory test (6 min run). The body size and maturation characteristics were body mass, height, arm span and maturity offset (MO). The ideal body size and MO characteristics associated with the six physical performance variables were identified using allometric modelling. Results: Two key characteristics associated with superior performances in all six physical performance tests were identified, to have a greater arm span together with a positive maturity offset. The arm span was the predictor with the largest effect size (Partial Eta Squared between 0.005 and 0.013) in five of the six physical fitness tests evaluated. The contribution of body mass varied depending on whether the physical performance test required the children to carry their body mass or not. In the case of endurance events, the mass term was negative. In the case when the test did not require the child to carry their body mass (e.g. throwing the medicine ball test), the mass term was always positive. However, for sprinting, the optimal performances peaked at 62 kg for 20 m sprinting and 73 kg for agility tests. Conclusion: The prominence of arm span's influence underscores its role in sports evaluations and the talent identification processes, reaffirming its practical significance. In addition, the study hints at the nuanced relationship between body mass and specific test requirements, potentially guiding targeted training strategies for different physical tasks. [ABSTRACT FROM AUTHOR]

Published

2024

9. Artificial Light at Night Increases Growth and Impairs Reproductive Success in Budgerigars (Melopsittacus undulatus) in a Duration Dose-Dependent Manner

Author

Malek Itay and Abraham Haim

Subjects

body mass, light pollution, captive birds, melatonin, short wavelength, Ecology, QH540-549.5, Animal culture, SF1-1100

Abstract

Short-wavelength artificial light at night is increasingly being associated with health and ecological risks. The negative impact of this relatively new source of pollution has been studied intensively in wild birds but to a much lesser extent in captive conspecifics. Using an avian model, our objective was to evaluate the effects of short-wavelength (200 lux at 460 nm) lighting on the body mass and reproductive success of Budgerigars (Melopsittacus undulatus) under captive conditions. Birds were maintained under a naturally increasing photoperiod from March to June, with one daily artificial light at night exposure of increasing duration (0, 30, 60, and 90 min) in the middle of the dark period. During the experiments, birds were monitored monthly for body mass, number of eggs laid, hatching success, and melatonin sulfate levels in droppings. Artificial light at night increased body mass and decreased melatonin sulfate levels as well as the number of eggs and hatching success in a duration dose-dependent manner. Our findings provide further evidence of the potential adverse impact of artificial light at night on captive birds and advocate the need for effective controlling measures for light pollution.

Published

2024

10. Effect of different sunflower cultivars on nutritional and physiological responses of Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae)

Author

Nima Goudarzi Mohammadi, Seyed Ali Hemmati, and Parviz Shishehbor

Subjects

body mass, digestive enzymes, host plant resistance, phytochemicals, nutritional response, Veterinary medicine, SF600-1100

Abstract

Helicoverpa armigera (Hübner) is one of the invasive pests of crops worldwide, and several studies have focused to compare the growth, consumption, and digestion of H. armigera larvae on different plants. However, studies evaluating the insect’s food consumption and digestive physiological response using biochemical profile of sunflower cultivars are scarce. In this research, the impacts of various sunflower cultivars (Golsa, Ghasem, Shams, and Zarrin) based on artificial diet were evaluated on enzymes activity and nutritional responses of H. armigera. Among the different sunflower cultivars, the relative growth rate (RGR), efficiency of conversion of ingested food (ECI), and efficiency of conversion of digested food (ECD) were highest on Ghasem. Likewise, the heaviest weight of larvae and pupae was obtained on Ghasem, while the lightest was found on Zarrin. The highest proteolytic activity was detected on Zarrin, whereas the highest amylolytic activities were found on Ghasem and Shams. In addition, ECD and RGR values of H. armigera larvae were negatively correlated with secondary metabolites content (phenol). The cluster analysis revealed that Ghasem was a nutritionally appropriate cultivar for H. armigera, while Zarrin illustrated the greatest level of tolerance against this polyphagous pest. These results could be useful in selection of sunflower cultivars for cultivation and breeding programs that entail H. armigera control.

Published

2024

11. Climate drives body mass changes in a mountain ungulate: shorter winters lead to heavier Alpine ibex.

Author

Brambilla, Alice, von Hardenberg, Achaz, Bassano, Bruno, Ranghetti, Luigi, Keller, Lukas, and Festa‐Bianchet, Marco

Subjects

*CLIMATE change, *SPRING, *AUTUMN, *LIFE history theory, *POPULATION dynamics

Abstract

Climate affects seasonality and plant phenology, which can influence seasonal body mass dynamics of herbivores in temperate environments. We investigated long‐term trends of seasonal body mass changes in male Alpine ibex Capra ibex. We used SEM to test direct and indirect relationships between body mass, mass changes and environmental and climatic variables. Individually recognizable Alpine ibex were weighed repeatedly between 2000 and 2022 in Gran Paradiso National Park (Italy). Autumn mass increased substantially over these two decades, up to 15% in some age classes. Over the same time frame, both summer mass gain and winter mass loss decreased, suggesting that heavier autumn body mass was due to the cumulative effects of reduced mass loss over several winters. The environmental factor with the strongest effects on winter mass changes was the starting date of vegetation green‐up at low altitude, where ibex gather after winter to feed on new growth vegetation. Early springs led to lower winter mass loss, likely because ibex relied on stored fat for a shorter period and had greater access to forage. High population density also increased winter mass loss. Environmental conditions and resource availability, possibly also influenced by density in winter and early spring, seem therefore to directly affect the body mass dynamics of male Alpine ibex, while the effect of summer conditions appears less relevant. By affecting seasonal body mass dynamics, climate change may have consequences for life history and population dynamics of mountain herbivores, for example via earlier access of young males to reproduction. [ABSTRACT FROM AUTHOR]

Published

2024

12. Duckling survival increased with availability of flooded wetland habitat and decreased with salinity concentrations in a brackish marsh.

Author

Peterson, Sarah H, Ackerman, Joshua T, Hartman, C Alex, Greenawalt, Andrew C, Casazza, Michael L, and Herzog, Mark P

Subjects

*MALLARD, *BRACKISH waters, *SURVIVAL rate, *WATERFOWL, *WETLANDS, *DUCKLINGS

Abstract

Waterfowl population recruitment is sensitive to duckling survival. We quantified predator types and survival rates for Anas platyrhynchos (Mallard) and Mareca strepera (Gadwall) ducklings in one of the largest brackish water marshes in western North America (Suisun Marsh, California) using 556 radio-tagged ducklings from 284 broods tracked during the 2016 to 2019 breeding seasons. Overall, 78% of ducklings died and 84% of mortalities occurred < 7 days after hatch. After hatching in upland fields, survival was greater for broods that hatched closer to flooded wetlands; broods had a ≥ 75% chance of surviving the move from the nest to water when nests were located ≤ 140 m from the nearest wetland and ≤ 50% chance of surviving when nests were located ≥ 970 m from the nearest wetland. Predation accounted for 91% of mortalities and was attributed to mammals (27.6%), birds (22.0%), snakes (4.4%), and unknown predators (46.0%). Anas platyrhynchos survival to fledging (54 days) was only 3.2% and 0.9% during 2 drier years and 11.7% and 16.7% during 2 wetter years. Mareca strepera survival to fledging was 9.4% to 11.2% among years. Daily survival rates for ducklings generally increased with the amount of flooded wetlands within 0.5 km (A. platyrhynchos) and 1.0 km (M. strepera) of the nest at hatch. Additionally, survival rates increased with duckling age and body mass at hatch for both species and decreased with hatch date for A. platyrhynchos but not M. strepera , which may be partially due to the earlier onset of A. platyrhynchos nesting. For ducklings that survived the initial move to water, survival rates were negatively correlated with salinity and this effect was more pronounced for younger ducklings. Anas platyrhynchos survival to 7 days post hatch decreased by 9.1% (wetter year) to 31.4% (drier year) when ducklings were in 12 ppt water (99th quantile of cumulative salinity concentrations experienced by ducklings) versus 0.5 ppt water. Mareca strepera survival to 7 days decreased by 7.4% when ducklings were in 12 ppt vs. 0.5 ppt water. Our results suggest that maintaining a network of low salinity wetlands within 1 km of upland nesting sites would likely improve duckling survival rates, especially during the critical 7-day period after hatch. [ABSTRACT FROM AUTHOR]

Published

2024

13. Do honest signals or piercing weapons determine rank in a polygynous ungulate?

Author

Fattorini, Niccolò, Tizzani, Paolo, Dematteis, Andrea, and Lovari, Sandro

Subjects

*SEXUAL dimorphism, *SEXUAL selection, *POLYGYNY, *UNGULATES, *MALES

Abstract

In polygynous ungulates, males are often larger than females and bear more elaborate/larger weapons. Quantifying sexual dimorphism in different traits could provide insights into species-specific evolutionary pathways of sexual selection. Concerning the combination of secondary sexual traits, we found that Himalayan tahr (Hemitragus jemlahicus) is unique among the ~20 species in the tribe Caprini, as its body mass dimorphism is ~2-fold greater than the dimorphism in horn size, whereas horn shape appears to be near-monomorphic. Whilst horns show the same growth rate in both sexes, body mass increases faster in males. Considering age variation, dominant, golden-ruffed males are also heavier than brown-ruffed, lower-ranking males. Unlike most bovids, male–male competition in tahr does not seem to have influenced weapon development, suggesting a lower importance of horns in male–male competition compared to body mass, as their unritualized combat style also suggests. Our study highlights alternative evolutionary pathways occurring in the Caprinae, where intraspecific signals involve different traits, from weapons to pelage features. Accordingly, male tahr use their ruff colour as an 'honest' signal of rank. [ABSTRACT FROM AUTHOR]

Published

2024

14. Body mass estimation of the extinct South American native ungulate <italic>Neolicaphrium recens</italic> Frenguelli, 1921 (Litopterna, Proterotheriidae): testing classical predictive models.

Author

Corona, Andrea, Rinderknecht, Andrés, Jones, Washington, Badín, Ana Clara, Ubilla, Martín, and Perea, Daniel

Subjects

*INDIGENOUS peoples of South America, *ALLOMETRIC equations, *DEER, *BODY size, *PALEOBIOLOGY

Abstract

Neolicaphrium recens (Mammalia, Litopterna) was a slender South American Native Ungulate (SANU). The assessment of its body size is a big challenge because there are no living representatives and no clear close morphological analogues. In this contribution, we report for the first time a femur of N. recens exhumed from Late Pleistocene sediments of Uruguay, improving the knowledge of the postcranial skeleton of the species. This stylopodial element is important for doing palaeobiological inferences, including estimating the body mass. We performed body mass estimations by previous allometric equations. As a method to directly test the models and their usefulness in fossils, we applied the equations on six specimens of extant deers of known body weight and with skeletons preserved. According to the obtained data, the transverse width at the middle of the diaphysis and the circumference of the bone at that level can be used with confidence to estimate the body mass of fossil ungulates. We point out a set of more probable values of body mass for N. recens: 28.76298 ± 10.6412, 27.78496 ± 8.0576, and 26.72 ± 10.42 kg. Morphological variables as well as the models for estimating body masses in fossils are widely discussed. [ABSTRACT FROM AUTHOR]

Published

2024

15. Associations between Body Segment Mass and Punch, Front Kick, or Countermovement Jump Performance in Military Cadets.

Author

Vagner, Michal, Malecek, Jan, Olah, Vladan, and Stastny, Petr

Subjects

DUAL-energy X-ray absorptiometry, MILITARY cadets, MARTIAL arts, RANK correlation (Statistics), STATISTICAL correlation

Abstract

Despite the recognized influence of body mass on combat techniques, the relationship between body segment mass (BSM) and combat moves remains unexplored. This study aimed to examine the relationship between the striking arm mass (SAM), kicking leg mass (KLM), and body mass (BM) and the dynamic forces of direct punch (DP), palm strike (PS), elbow strike (ES), front kick (FK), and countermovement jump (CMJ) performance. Sixteen male military cadets (22.3 ± 1.8 years, 181.4 ± 7.0 cm, 82.1 ± 8.5 kg) performed combat techniques, with their performance measured by using a force plate and their body segment mass assessed by dual-energy X-ray absorptiometry. Spearman's correlation analysis, the Wilcoxon test, and Cohen's d were applied. The results indicated the relationship between the KLM or BM and the FK impulse (r = 0.64, p = 0.01; r = 0.52, p = 0.04, respectively) and CMJ impact force (r = 0.80, p ≤ 0.01; r = 0.70, p ≤ 0.01, respectively). The FK peak and impact forces were moderately correlated with the CMJ jump height (r = 0.74, p ≤ 0.01; r = 0.77, p ≤ 0.01). Moreover, the FK peak force was significantly higher than that for DP, PS, and ES (p ≤ 0.01, d = 3.32; p ≤ 0.01, d = 1.6; and p = 0.013, d = 1.3, respectively). The highest relationship was found between the KLM and the FK impulse; however, the difference in variability explained by the KLM versus the body mass was only 12%. This suggests that knowledge of the BSM did not provide a significantly better estimate of the dynamic forces of the punches and FKs than the knowledge of the BM. [ABSTRACT FROM AUTHOR]

Published

2024

16. Lost, hidden, broken, cut-estimating and interpreting the shapes and masses of damaged assemblages of plesiosaur gastroliths.

Author

Henderson, Donald M.

Subjects

BUILDING stones, RIB cage, BODY size, CHERT, TAPHONOMY

Abstract

Background: Gastroliths are stones of uncertain purpose that are commonly found inside the rib cages of plesiosaur fossils worldwide. Gastroliths from four Alberta (Canada) plesiosaurs were studied to determine both their shapes and masses, and their mass fractions relative to body mass. One animal's set of gastroliths was 100% complete and fully visible, but the others showed varying degrees of loss, damage or obscuration, so estimations of their original states were needed. Methods: The studied animals were: Albertonectes vanderveldei, Fluvionectes sloanae, Nichollssaura borealis and Wapuskanectes betsynichollsae. The animals come from three different palaeoenvironments: open marine, near shore marine, and fluvial. Gastrolith shapes were classified as either xiphoid, cylindrical, discoidal or spherical based on observed and/or estimated dimensions. Although not all methods could be applied in all cases, gastrolith shapes and masses were estimated four different ways: (1) direct measurement and weighing of a subset and predicting the properties of the remaining obscured and hidden stones; (2) measuring triaxial ellipsoid dimensions of free stones to calculate volumes and multiplying by the mass density of chert; (3) measuring two visible triaxial dimensions of embedded stones, estimating the hidden third dimension three different ways, and then determining volumes and masses by calculation; and (4) predicting the density and mass of a densely packed cluster of small gastroliths using geometrical arguments. Results: Total gastrolith mass never exceeded 0.2% of body mass in any plesiosaur, and is consistent with the idea that the amounts of gastroliths recovered with plesiosaurs would be ineffective as ballast. The largest plesiosaur in the sample had the largest single gastrolith and total gastrolith mass increases with body size. The shape characteristics of the gastroliths were different for different environments, but compositionally they are dominated by black cherts. A possible common source for the gastroliths was identified for the two geographically close and near-contemporanous Nichollssaura and Wapuskanectes. [ABSTRACT FROM AUTHOR]

Published

2024

17. Wearable technology metrics are associated with energy deficiency and psychological stress in elite swimmers.

Author

Lundstrom, Emily A., De Souza, Mary Jane, Koltun, Kristen J., Strock, Nicole C.A., Canil, Hannah N., and Williams, Nancy I.

Subjects

PSYCHOLOGICAL stress, WEARABLE technology, ELITE athletes, ATHLETES' health, HEART beat

Abstract

Energy deficiency (ED) and psychological stress affect athlete health. Given the emerging capabilities of wearable technology, the purpose of this study was to explore associations of wearable technology metrics in relation to lab-based measures of ED and psychological stress. We investigated the associations between (a) wearable-derived heart rate variability (HRV), resting heart rate (RHR), exercise strain and recovery, and (b) laboratory-derived measures of metabolism (resting metabolic rate (RMR), total triiodothyronine (TT3)) and a validated stress assessment (Recovery-Stress Questionnaire for Athletes (RESTQ)-52 items) in NCAA swimmers (n = 23, 10 male, 13 female) during heavy training. Swimmers were grouped by degree of metabolic adaption to ED using the ratio of actual-to-predicted RMR (utilizing the validated cutoff of <0.94) and by sex. Metabolically suppressed swimmers had lower HRV (81 ± 27 ms vs.110 ± 35 ms, p = 0.04). HRV correlated positively with RMR (kcal·kg LBM−1·day−1; where LBM stands for lean body mass) (r = 0.45; p = 0.03). HRV was negatively correlated with sport-specific (r = −0.46; p = 0.03) and total stress (r = −0.46; p = 0.03). In males, HRV correlated negatively with general stress (r = −0.72; p = 0.02) and total stress (r = −0.74, p = 0.01) (RESTQ). Additionally, in males only, the strain was correlated positively with RESTQ recovery–stress balance (r = 0.69; p = 0.03), and negatively correlated with general stress (r = −0.81, p = 0.01), and sport stress (r = −0.89, p < 0.01). No correlations between HRV, RHR, strain or recovery, and stress variables were observed in females. Associations between wearable technology measures of HRV, RHR, strain, and recovery with validated measures of ED and psychological stress should continue to be explored with a focus on underlying mechanisms and moderating influences of biological sex. [ABSTRACT FROM AUTHOR]

Published

2024

18. Drone-based photogrammetry reveals differences in humpback whale body condition and mass across North Atlantic foraging grounds.

Author

Napoli, Chelsi, Hirtle, Nathan, Stepanuk, Julia, Christiansen, Fredrik, Heywood, Eleanor I., Grove, Thomas J., Stoller, Alyssa, Dodds, Flordespina, Glarou, Maria, Rasmussen, Marianne H., Lonati, Gina L., Davies, Kimberley T. A., Videsen, Simone, Simon, Malene J., Boye, Tenna K., Zoidis, Ann, Todd, Sean K., and Thorne, Lesley H.

Subjects

BALEEN whales, HUMPBACK whale, PHYSIOLOGY, BODY size, PREY availability, PHOTOGRAMMETRY, WHALES

Abstract

Baleen whales are key consumers in marine ecosystems and can serve as ecosystem sentinels. Body condition, defined as an individual’s energy stores relative to its structural size, can provide a useful proxy for health in baleen whales. As capital breeders, important life history events in baleen whales such as seasonal migrations and reproduction depend on having sufficient energy stores. Spatiotemporal variability of body condition of baleen whales can reflect differences in energy accumulated during the foraging season. Here we assess and compare the body condition and mass of humpback whales (Megaptera novaeangliae) across four different foraging areas from the West Indies distinct population segment in the Northwest Atlantic. Morphometric measurements of humpback whales were obtained using unoccupied aerial systems (UAS, or drones) from the New York Bight, the Gulf of Maine, Iceland, and Greenland. Uncertainty in morphometric estimates was incorporated and propagated using a bootstrapping approach. Measurements were used to estimate body volume and calculate a body condition index (BCI) for each individual whale. Since body mass is a key parameter for understanding animal physiology and bioenergetics, we further compared whale body mass to body size between foraging areas by converting body volume to body mass using estimates of tissue density from tagging studies. BCI showed significant differences between foraging areas with a large effect size (ANCOVA: mean η² = 0.168; all p< 0.001) when incorporating day of year and year as covariates. Humpback whales in the Gulf of Maine showed significantly higher BCI than those in the New York Bight, Iceland, and Greenland. Standardized Major Axis (SMA) regressions comparing log-log relationships of both body volume and body mass, respectively, to total length reinforced these results. Humpback whales in the Gulf of Maine showed significantly higher elevation in the SMAs than those in the other study regions (p<0.001), implying that humpback whales foraging in the Gulf of Maine accumulated greater energy reserves for a given body size. Estimates of body mass indicate that for a given body length, humpback whales in the Gulf of Maine have an 18% greater body mass than those in the New York Bight, Iceland, or Greenland. Regional differences in prey availability or anthropogenic threats could contribute to the observed patterns in body condition. Our findings highlight the importance of regional environmental factors to the nutritional health of baleen whales. [ABSTRACT FROM AUTHOR]

Published

2024

19. Estimation of maximum body size in fossil species: A case study using Tyrannosaurus rex.

Author

Mallon, Jordan C. and Hone, David W. E.

Subjects

*TYRANNOSAURUS rex, *FOSSILS, *AMERICAN alligator, *PALEOECOLOGY, *BODY size

Abstract

Among extant species, the ability to sample the extremes of body size—one of the most useful predictors of an individual's ecology—is highly unlikely. This improbability is further exaggerated when sampling the already incomplete fossil record. We quantify the likelihood of sampling the uppermost limits of body size in the fossil record using Tyrannosaurus rex Osborn, 1905 as a model, selected for its comparatively well‐understood life history parameters. We computationally generate a population of 140 million T. rex (based on prior estimates), modelling variation about the growth curve both with and without sexual dimorphism (the former modelled after Alligator mississippiensis), and building in sampling limitations related to species survivorship and taphonomic bias, derived from fossil data. The 99th percentile of body mass in T. rex has likely already been sampled, but it will probably be millennia before much larger giants (99.99th percentile) are sampled at present collecting rates. Biomechanical and ecological limitations notwithstanding, we estimate that the absolute largest T. rex may have been 70% more massive than the currently largest known specimen (~15,000 vs. ~8800 kg). Body size comparisons of fossil species should be based on ontogenetically controlled statistical parameters, rather than simply comparing the largest known individuals whose recovery is highly subject to sampling intensity. [ABSTRACT FROM AUTHOR]

Published

2024

20. Effect of different sunflower cultivars on nutritional and physiological responses of Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae).

Author

Mohammadi, Nima Goudarzi, Hemmati, Seyed Ali, and Shishehbor, Parviz

Subjects

*HELICOVERPA armigera, *PLANT enzymes, *DIGESTIVE enzymes, *INSECT food, *METABOLITES

Abstract

Helicoverpa armigera (Hübner) is one of the invasive pests of crops worldwide, and several studies have focused to compare the growth, consumption, and digestion of H. armigera larvae on different plants. However, studies evaluating the insect's food consumption and digestive physiological response using biochemical profile of sunflower cultivars are scarce. In this research, the impacts of various sunflower cultivars (Golsa, Ghasem, Shams, and Zarrin) based on artificial diet were evaluated on enzymes activity and nutritional responses of H. armigera. Among the different sunflower cultivars, the relative growth rate (RGR), efficiency of conversion of ingested food (ECI), and efficiency of conversion of digested food (ECD) were highest on Ghasem. Likewise, the heaviest weight of larvae and pupae was obtained on Ghasem, while the lightest was found on Zarrin. The highest proteolytic activity was detected on Zarrin, whereas the highest amylolytic activities were found on Ghasem and Shams. In addition, ECD and RGR values of H. armigera larvae were negatively correlated with secondary metabolites content (phenol). The cluster analysis revealed that Ghasem was a nutritionally appropriate cultivar for H. armigera, while Zarrin illustrated the greatest level of tolerance against this polyphagous pest. These results could be useful in selection of sunflower cultivars for cultivation and breeding programs that entail H. armigera control. [ABSTRACT FROM AUTHOR]

Published

2024

21. Effects of different resistance training programmings on the relative strength, body composition, anthropometric variables, and metabolic risk of elderly women.

Author

da Silva, Surama do Carmo Souza, Pires, Flavio de Oliveira, Serra, Larissa de Lourdes Padilha, Reis, Carlos Brendo Ferreira, de Abreu, Leudyenne Pacheco, Pereira, Paula Tâmara Vieira Teixeira, Cabido, Christian Emmanuel Torres, and Leite, Richard Diego

Abstract

The purpose of this study was to analyze the effect of two different programming models of resistance training (RT) on metabolic risk, anthropometric variables, and relative strength in elderly women. The research was a prospective and comparative longitudinal study with a non-probabilistic random sample. Twenty-two elderly women (64 ± 3 years) was divided into two experimental groups being the Linear programming (LP, n = 12) and Daily undulatory programming (DUP, n = 10), with 3 sessions/week for 12 weeks. Submaximal strength (10RM) was evaluated in the horizontal leg press (HL), pulldown (PD), leg curl (LC), vertical bench press (BP), and leg extension (LE). Anthropometric variables, food intake (R24h) and submaximal strength (10RM) was analyzed. Participants were initially classified as overweight or obese evaluated by body mass index (BMI) and percentual of fat mass (%FM) and with moderate to high risk to develop metabolic diseases evaluated by hip-waist ratio (HWR), waist-height ratio (WHR) and waist circumference (WC). There is no change for metabolic risk and anthropometric variables after the intervention period. There was a significant improvement for relative strength accessed by 10RM and body weight (10RM/BW), and lean body mass (10RM/LBM) (p < 0.05), with large or medium effect size for most of variables after 12 weeks of RT. As a conclusion, both programmings increased relative strength after 12 weeks of RT with attenuated change in body composition and metabolic risk in elderly women in both programming groups and all those strategies can be used in elderly women to improve strength. [ABSTRACT FROM AUTHOR]

Published

2024

22. Context-specific “silver-spoon” effects of wetlands, climate, and temperature on lifetime fitness in a short-lived temperatebreeding migratory songbird.

Author

Berzins, Lisha L., Dawson, Russell D., and Clark, Robert G.

Subjects

WETLANDS, SONGBIRDS, BIOLOGICAL fitness, FOOD supply, ADULTS, HIGH temperatures

Abstract

Drivers of global change are creating strongly contrasting early life conditions for developing offspring, which may have carry-over effects on lifetime fitness. We tested for “silver-spoon” effects of natal conditions (environmental conditions and maternal quality) and individual quality (pre-fledging) on the lifetime reproductive success (LRS) of aerial insectivorous adult tree swallows (Tachycineta bicolor) hatched in distinct populations with contrasting environments in Saskatchewan and British Columbia, Canada. In both populations, LRS of adults was influenced by environmental conditions they experienced as developing nestlings, but silver-spoon effects were context-dependent, indicating population-specific responses to the local environment. Higher natal temperature in Saskatchewan had positive silver-spoon effects on the LRS of adult swallows, but the opposite was observed in British Columbia, likely because the highest temperatures local recruits experienced as nestlings occurred during heat extremes. In Saskatchewan, where wetter conditions reflect higher wetland abundance and food supply, we detected a negative effect of good natal wetland conditions on adult LRS, contrary to our hypothesis. However, since current breeding wetland conditions are a strong driver of adult fitness, and adults experiencing high natal wetland abundance generally bred when wetland abundance was lower, we suspect any potential benefits of natal wetland abundance on LRS were overridden by wetland conditions during breeding. As hypothesized, wetter natal conditions in British Columbia, which reflect an unfavorable environment for developing nestlings, had negative silver-spoon effects on the LRS of adults. No maternal or pre-fledging quality effects were detected at either site. Therefore, LRS of individuals within distinct populations is influenced, at least in part, by carry-over effects of the natal environment that vary locally. Consequently, natal environmental conditions that affect fitness, with putative population-level consequences, may underly spatially-varying population trends of regionally distinct populations within a species’ range. [ABSTRACT FROM AUTHOR]

Published

2024

23. A straightforward protocol to sample morphological traits of dragonflies and damselflies in the field.

Author

Novella Fernandez, Roberto

Subjects

*DAMSELFLIES, *DRAGONFLIES, *ODONATA, *ECOLOGICAL models, *BODY size, *SPECIES

Abstract

Scarcity of morphological data limits the potential of functional ecology approaches, which rely on traits to elucidate ecological processes. Dragonflies and damselflies (Odonata) are a frequently used ecological model for which, however, only limited morphological data is available. Here, it is presented a field sampling protocol to collect ecologically relevant yet largely unavailable morphological traits of Odonata. The protocol enables the straightforward collection of traits from living individuals directly in the field. Those traits include body mass, wing area and wing loading as well as thorax width, hindwing length and body length. Furthermore, the protocol allows for posterior wing morphometric analyses. The protocol proved to be robust and universally applicable based on testing on roughly half (76) of all European odonate species. The use of this protocol can increase our understanding of odonatan morphology at interspecific and intraspecific levels and assist in developing mechanistic understanding of their ecology. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effects of 16-week Muay Thai practice on cardiovascular parameters in children and adolescents with overweight/obesity.

Author

Saraiva, Bruna T. C., Franchini, Emerson, Vanderlei, Luiz Carlos M., Milanez, Vinícius F., Tebar, William R., Beretta, Victor S., Ritti-Dias, Raphael M., and Christofaro, Diego G. D.

Subjects

*OVERWEIGHT children, *RATE of perceived exertion, *HEART beat, *DIASTOLIC blood pressure, *SYSTOLIC blood pressure, *BLOOD pressure

Abstract

Background: Changes in cardiovascular health indicators during childhood and adolescence can lead to cardiovascular diseases in adulthood. Excess body fat is one of the main factors for cardiovascular diseases. Thus, new strategies for the practice of physical activity with this population are needed to prevent and/or reverse this situation. Aim: To analyze the effects of 16 weeks of Muay Thai practice on heart rate variability, blood pressure, and resting heart rate in children and adolescents with overweight/obesity. Methods: The sample is composed of 30 children and adolescents of both sexes (17 male and 13 female) aged 12.50 ± 2.12 years. The participants were divided into Muay Thai (n = 17) and control (n = 13). Systolic and diastolic blood pressure and heart rate were measured using an automatic oscillometric device. Heart rate variability was assessed by a frequency meter and was analyzed considering the time domain indices, frequency, and the Poincaré plot. The outcomes were evaluated before (initial time) and after 16 weeks. The Muay Thai group, performed an intervention with Muay Thai training for 16 weeks (three times a week on non-consecutive days). Each training session lasted 90 min and the intensity was maintained from moderate to high using the perceived exertion scale. Results: The Muay Thai group demonstrated lower heart rate values than the control group at the pre-test (p = 0.040). In addition, the Muay Thai group decreased the heart rate in post-test when compared to the pre-test (p < 0.001). Conclusion: 16 weeks of Muay Thai shows a tendency to reduce resting heart rate in children and adolescents with overweight/obesity. [ABSTRACT FROM AUTHOR]

Published

2024

25. Comparing handgrip strength between judokas and non-judokas using population-based normative values.

Author

Külkamp, Wladymir, Kons, Rafael Lima, de Souza, Jaqueline, Hizume-Kunzler, Deborah, Ache-Dias, Jonathan, Carvalho, Raiane, Dal Pupo, Juliano, and Detanico, Daniele

Subjects

*STATURE, *MARTIAL artists, *ALLOMETRY

Abstract

Purpose: Recently, a novel index (HGSindex) was proposed to compare the handgrip strength (HGS) within and between judokas and non-judokas considering the body mass (BM). However, some studies consider body height (BH) as the most appropriate parameter. So, the aims of the present study were as follows: (1) determine which variable (BM or BH) provides a better normalization of the HGS in groups of judokas and non-judokas and (2) evaluate the HGS of these groups using the HGSindex based on normative values. Method: Participants were 84 male judoka (JM), 25 female judoka (JF), and 44 nonathlete males (NA). Using allometry, the HGS was normalized and the HGSindex was calculated. Statistical tests evaluated correlations, means, and effect sizes. Results: The results showed that JM and NA groups exhibited stronger HGS compared to nonathletes expected values, while the JF group showed similar performance. BM and BH were suitable variables for HGS normalization, even if BH did not significantly correlate with HGS in the JF group. Furthermore, normalizing HGS for BM removed the BH effect, but not vice versa. Individual HGSindex varied within the groups, ranging from superior to inferior. On average, the JM group had superior performance (HGSindex = 19.32%), while the JF (HGSindex = 6.19%) and NA (HGSindex = 13.61%) groups were classified as mean superior. Conclusion: The BM seems to be the best variable to normalize the HGS of the participants. The HGSindex proved to be a suitable tool, allowing for comparisons between groups that would not be possible with traditional allometric technique. [ABSTRACT FROM AUTHOR]

Published

2024

26. Thermal relations in sled dogs before and after exercise.

Author

Paul, Kailey D. and Jiménez, Ana Gabriela

Subjects

*SLED dogs, *BODY temperature regulation, *BASAL metabolism, *AEROBIC capacity, *BODY temperature, *ENDURANCE athletes

Abstract

Regulation of internal body temperature (Tb), or thermoregulation, is an evolutionarily conserved trait that places demand on basal metabolic rate of endothermic animals. Across species, athletes generate increased quantities of heat in comparison to their nonathletic counterparts and, therefore, must mediate physiological unbalance by upregulating the effectiveness of their heat dissipation abilities. Canine athletes are no exception to this phenomenon, however, with literature denoting body temperatures lower than nonathletic canines, it is clear they must possess adaptations to mitigate this demand. With VO2 max measurements of more than 200 mL/kg/min in sled dogs with mild training to 300 mL/kg/min in highly trained animals, sled dogs are a prime example of athleticism in canines. Seeking to determine correlations between Tear and body mass, morphology, and age of canine athletes, core body temperature (Tb) was measured with an instant ear thermometer, using Tear as a correlate before and after a 2‐mile run. In addition, we employed thermal imaging analysis to capture body‐wide heat dissipation patterns in sled dogs, and focused on thermal variation of mouth (Tmouth), nose (Tnose), and eyes (Teye). Furthermore, we looked at correlations between thermal variability across these four tissues and head morphology of each dog. Tear was consistently the highest temperature across all tissues measured, with a 1.5°C increase between pre‐ to postexercise (p < 0.001). Thermal imaging revealed significant positive correlations between Tmouth and body mass 15 min postexercise (p = 0.0023) as well as significantly negative correlations between Tnose and body mass at before exercise (p = 0.0468), Teye and nose length after run (p = 0.0076), and Tmouth and nose length after run (p = 0.0110). As body temperature rises during exercise, it becomes increasingly important to regulate blood flow throughout the body to supply working tissues with oxygen. This demand is offset by the role of the snout in evaporative cooling through panting, functioning as a prime location for heat dissipation and therefore maintaining significant relationships with many other vascularized tissues. Research Highlights: As body temperature rises during exercise, it becomes increasingly important to regulate blood flow throughout the body to supply working tissues with oxygen. This demand is offset by the role of the snout in evaporative cooling through panting, functioning as a prime location for heat dissipation. [ABSTRACT FROM AUTHOR]

Published

2024

27. Using your head — cranial steering in pterosaurs.

Author

Henderson, Donald M.

Abstract

The vast majority of pterosaurs are characterized by relatively large, elongate heads that are often adorned with large, elaborate crests. Projecting out in front of the body, these large heads and any crests must have had an aerodynamic effect. The working hypothesis of the present study is that these oversized heads were used to control the left–right motions of the body during flight. Using digital models of eight non-pterodactyloids ("rhamphorhyncoids") and ten pterodactyloids, the turning moments associated with the head + neck show a close and consistent correspondence with the rotational inertia of the whole body about a vertical axis in both groups, supporting the idea of a functional relationship. Turning moments come from calculating the lateral area of the head (plus any crests) and determining the associated lift (aerodynamic force) as a function of flight speed, with flight speeds being based on body mass. Rotational inertias were calculated from the three-dimensional mass distribution of the axial body, the limbs, and the flight membranes. The close correlation between turning moment and rotational inertia was used to revise the life restorations of two pterosaurs and to infer relatively lower flight speeds in another two. [ABSTRACT FROM AUTHOR]

Published

2024

28. Ecological drivers of sexual size dimorphism in northern chamois

Author

Rudolf Reiner and Luca Corlatti

Subjects

body mass, fecundity, forest cover, sexual selection, ungulates, Ecology, QH540-549.5

Abstract

Abstract Male‐biased sexual size dimorphism (SSD) is common in ungulates. The dominant scenario for the evolution of ungulate SSD suggests that habitat openness leads to greater SSD by increasing group size and thus sexual selection through male–male competition for mates. At a more proximate level, adaptive changes in SSD may result from the plastic response of individuals to environmental variation. In this study, we used 161,948 body mass data from a seasonally size‐dimorphic species, the northern chamois Rupicapra rupicapra, to examine the role of forest cover and other environmental variables in the expression of SSD. Data were collected from individuals hunted in the Austrian Alps, grouped into 28 mountain ranges with different forest cover, geological substrate and population density. Population‐specific growth curves were fitted using monomolecular models, and SSD was calculated as the log‐transformed ratio of male to female asymptotic body mass. A path model in which environmental factors indirectly influenced SSD via male or female body mass suggested that SSD increased with increasing density via reduced female body mass and decreased on siliceous substrates via reduced male body mass. Forest cover was negatively associated with body mass in both sexes, but not with variation in SSD.

Published

2024

29. Evolutionary palaeoecology of European rhinocerotids across the Oligocene–Miocene transition

Author

Manon Hullot, Céline Martin, Cécile Blondel, Damien Becker, and Gertrud E. Rössner

Subjects

Mi−1 event, dental wear, stable isotopes, enamel hypoplasia, body mass, diet, Science

Abstract

The Oligocene–Miocene transition witnessed great environmental and faunal changes, spanning from late Oligocene to early Miocene (MP28–MN3). Its drivers and consequences on mammals are, however, poorly understood. Rhinocerotoids are among the most affected taxa, reflected by great taxonomical and morphological changes. However, potential associated changes in ecology have not been explored. Here, we investigated the palaeoecology of 10 rhinocerotid species coming from 15 localities across Western Europe and ranging from MP28 to MN3. We explored evolutionary trends for diet, physiology and habitat via dental wear, hypoplasia, body mass and stable isotopy. All rhinocerotids studied were C3 feeders, whether browsing or mixed-feeding, but clear dietary differences were observed at some localities and between Oligocene and Miocene rhinocerotids. The prevalence of hypoplasia was low (less than 10%) to moderate (less than 20%), but there were great differences by loci, species and localities. Body mass covaried with hypoplasia prevalence, suggesting that larger species might be more susceptible to stresses and environmental changes. We reconstructed similar warm conditions at all localities except Gaimersheim, but found greater variations in precipitation. Indeed, a clear shift in δ13C values was noticed at the end of the Oligocene, consistent with climatic and vegetation changes reported at that time.

Published

2024

30. The effects of isocaloric diets derived from different lipid sources on zebrafish

Author

P. F. Peppi, C. A. Faria, J. P. C. Machado, B. C. R. Virote, W. F. Carneiro, L. D. Solis-Murgas, L. Portz, C. R. Santos, L. R. S. Campos, G. A. Lira, E. M. M. Lima, A. J. A. Bicudo, and A. R. C. Barreto-Vianna

Subjects

body mass, glucose, hepatic steatosis, fatty acids, metabolism, Science, Biology (General), QH301-705.5, Zoology, QL1-991, Botany, QK1-989

Abstract

Abstract Characterizing the effects of saturated fat intake on metabolic health and its changes remains a major challenge. Lipid diets, from different sources, vary widely in their physiological effects on health; therefore, it is important to consider the specific lipid source consumed. The objective of the study was to evaluate the effect of the imposition of isocaloric diets with different lipid sources in zebrafish (fish oil/pork lard). Depicting how metabolic, morphological and behavioral parameters might express themselves in these fishes. Forty adult female fishes were used for the experiment. The animals were divided into a control group (C), fed with unsaturated fatty acid diet, and a saturated fatty acid group (Sat). They received food three times a day, during the 11-week period. The results showed that animals in the Sat group had increased body weight, with a difference relative to the C group, from the third week of diet until the end of the experiment. At the end of the last week, the Sat group had a body weight 32% higher (P=0.0182) than the body weight of the control group. The consumption of a diet rich in saturated fatty acids did not generate signs related to stress and anxiety in zebrafish. There was an increase in glycemia at T60 and T120, with a statistically significant difference between the two moments. Animals in the Sat group showed an increase (P=0.0086) in hepatic steatosis compared to animals in the control group. The results obtained on the relationship between diet and metabolic changes are fundamental to ensure the understanding and appropriate treatment of these problems.

Published

2024

31. Why Compare Early Hominins to Baboons?

Author

King, Glenn E. and King, Glenn E.

Published

2024

32. How Climate Change Impacts Animals

Author

van Genuchten, Erlijn and van Genuchten, Erlijn

Published

2024

33. Longitudinal association between overweight years, polygenic risk and NAFLD, significant fibrosis and cirrhosis

Author

Ajmera, Veeral, Wang, Na, Xu, Hanfei, Liu, Ching‐Ti, and Long, Michelle T

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Liver Disease, Nutrition, Prevention, Chronic Liver Disease and Cirrhosis, Clinical Research, Clinical Trials and Supportive Activities, Digestive Diseases, Genetics, Obesity, Oral and gastrointestinal, Metabolic and endocrine, Good Health and Well Being, Adult, Humans, Female, Male, Non-alcoholic Fatty Liver Disease, Overweight, Prospective Studies, Liver Cirrhosis, Liver, Fibrosis, Elasticity Imaging Techniques, body mass, fibrosis, genetic risk, nonalcoholic fatty liver disease, steatosis, Gastroenterology & Hepatology, Clinical sciences, Pharmacology and pharmaceutical sciences

Abstract

BackgroundAdiposity amplifies the genetic risk of non-alcoholic fatty liver disease (NAFLD).AimWe evaluated the association between overweight-years, a cumulative exposure based on the product of the duration and severity of excess body weight (body mass index (BMI) ≥ 25 kg/m2 ), and genetic risk on liver fat and fibrosis.MethodsThis is a longitudinal analysis derived from a prospective cohort of adults in the Framingham Heart Study who underwent genotyping and vibration-controlled-transient-elastography with controlled attenuation parameter. Univariable and multivariable linear and logistic regression analyses were used to assess the association between overweight-years and liver fat and fibrosis. The association between genetic variants of liver fat (PNPLA3, TM6SF2, GCKR) and fibrosis (PNPLA3, TM6SF2, HSD17B13) was also assessed using a polygenic risk score.ResultsOur sample included 2478 participants (54% women) with mean age and BMI of 40 (±8.5) years and 26.5(±5.1) kg/m2 , respectively. The mean follow-up was 14(±0.9) years, and each participant underwent three study visits. The prevalence of NAFLD was 28.3% (n = 700), and 207 (8.4%) had clinically significant fibrosis. In age-, sex- and diabetes-adjusted multivariable analyses, overweight-years (per SD) had a strong association with NAFLD (aOR 3.53 [95% CI: 3.10-4.02], p

Published

2023

34. Comparative study to evaluate the effect of vibrations on human subjects with different masses and anthropometric dimensions using a four-layer CAD model

Author

Sharma, Shubham, Kalsi, Sachin, Singh, Jagjit, and Singh, Ishbir

Published

2024

35. Body mass dynamics in wintering mallards (Anas platyrhynchos) in the Lower Mississippi Alluvial Valley

Author

Veon, John T, DeGregorio, Brett A, Naylor, Luke W, Reinecke, Kenneth J, Dabbert, Brad C, Demarest, Dean W, Hartke, Kevin M, and Krementz, David G

Subjects

Climate Action, Waterfowl, Mallard, Body Mass, Climate, Fitness, Foraging Ecology, Environmental Science and Management, Ecology

Published

2023

36. Sex‐specific effects of dietary restriction on physiological variables in Japanese quails.

Author

Reda, Gebrehaweria K., Ndunguru, Sawadi F., Csernus, Brigitta, Lugata, James K., Knop, Renáta, Szabó, Csaba, Czeglédi, Levente, and Lendvai, Ádám Z.

Subjects

*JAPANESE quail, *SOMATOMEDIN C, *BLOOD lipids

Abstract

Nutritional limitation is a common phenomenon in nature that leads to trade‐offs among processes competing for limited resources. These trade‐offs are mediated by changes in physiological traits such as growth factors and circulating lipids. However, studies addressing the sex‐specific effect of nutritional deficiency on these physiological variables are limited in birds. We used dietary restriction to mimic the depletion of resources to various degrees and investigated sex‐specific effects on circulating levels of insulin‐like growth factor 1 (IGF‐1) and triglycerides in Japanese quails (Coturnix japonica) subjected to ad libitum, 20%, 30% or 40% restriction of their daily requirement, for 2 weeks. We also explored the association of both physiological variables with body mass and egg production. While dietary restriction showed no effects on circulating IGF‐1, this hormone exhibited a marked sexual difference, with females having 64.7% higher IGF‐1 levels than males. Dietary restriction significantly reduced plasma triglyceride levels in both sexes. Females showed more than six‐fold higher triglyceride levels than males. Triglyceride levels were positively associated with body mass in females while showed not association in males. Overall, our findings revealed sex‐specific expression of physiological variables under dietary restriction conditions, which coincide with body size. [ABSTRACT FROM AUTHOR]

Published

2024

37. Sex, moulting dynamics, and reproductive status in Atlantic Forest tanagers and their collective impact on body condition.

Author

Aguiar de Souza Penha, Victor

Subjects

*MOLTING, *FEATHERS, *PHYSIOLOGY, *ANIMAL clutches, *SEASONS, *IMMUNITY

Abstract

Body condition in individuals is intricately linked to behaviour, physiology, and immunity. This study investigated how seasonal factors, such as reproduction and moulting, influence the body condition of 21 tanager species in the Atlantic Forest. Utilising publicly available data, I employed phylogenetic generalised linear mixed models to dissect these influences. Notably, females with brood patches exhibited concurrent body and feather moult, suggesting simultaneous energy-costly constraints. Furthermore, females with brood patches displayed higher body condition, indicating proactive preparation or increased resource availability during breeding. Lastly, individuals moulting body feathers exhibited enhanced body condition, suggesting heightened foraging activity. These data suggest complex connections between sex, moulting, and reproductive status in tanagers in the Atlantic Forest. [ABSTRACT FROM AUTHOR]

Published

2024

38. Growth Charts for Children With Arthrogryposis Multiplex Congenita.

Author

Hyer, Lauren C., Shull, Emily R., Fray, Bob, and Westberry, David E.

Subjects

*WEIGHTS & measures, *BODY mass index, *HUMAN growth, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *CHILD development, *MEDICAL records, *ACQUISITION of data, *ANALYSIS of variance, *ARTHROGRYPOSIS, *NUTRITION, *CHILDREN

Abstract

Children with arthrogryposis multiplex congenita (AMC) often demonstrate growth differences compared with typically developing (TD) children. However, growth charts have not been developed for this population. The purpose of this study was to create AMC-specific growth charts and to compare these values to those of TD children. A retrospective review of height/length and weight for 206 children with AMC was performed. Growth charts were developed and stratified over seven percentiles; these were then compared with growth charts of TD children. Children with AMC tend to be smaller in stature and weight compared with TD children, particularly in the first 36 months of life. Thereafter, weight values trend toward the 50th percentile of TD children, but height/length values persist around the 5th percentile of TD children. The development of AMC-specific growth charts provides health care providers an objective tool to evaluate growth patterns of patients with AMC. [ABSTRACT FROM AUTHOR]

Published

2024

39. 不同年龄三角帆蚌新生长性状臀角放射肋长与其他生长性状相关 性和通径分析

Author

吕高伦, 吕雪峰, 王昊, 张瑶, 李家乐, 王正, and 白志毅

Abstract

In shellfish culturing and breeding practice, the width of shell growth lines is an important index to measure the growth rate of shellfish, and anal angle radial rib is the part with the widest growth lines. In order to explore the feasibility of taking anal angle radial rib length as a typical growth trait, this research analyzed the correlation between anal angle radial rib length （X1） and other growth traits, such as shell length （X2）, shell height （X3）, total height （X4）, shell width （X5）, live body weight （Y1）, soft tissue weight （Y2） and shell weight （Y3） of Hyriopsis cumingii at different ages and conducted the path analysis of body size traits to body weight traits （live body weight, soft tissue weight and shell weight）. The results of correlation analysis showed that there was a significant positive correlation between anal angle radial rib length and body weight in the first to third instars of H. cumingii. The correlation coefficient between shell length and live body weight was the highest in the first and second instars of mussel, while the correlation coefficient between anal angle radiating rib length and live body weight was the highest in the third instar of mussel. In addition, the correlation coefficient between anal angle radiating rib length and live body weight, soft tissue weight and shell weight showed an increasing trend with the increase of age. The data of path analysis and multiple regression analysis displayed that the main factors affecting the live body weight of 1 to 3 year old were anal angle radial rib length, shell length and shell width, the main factors affecting the soft tissue weight of 3 year old were shell length and shell width, the main factors affecting the shell quality of 1 and 2 year old mussel were shell length and shell width, and the main factors affecting the shell quality of the third instar mussel were anal angle radiating rib length, shell length and shell width. In conclusion, anal angle radial rib length, together with shell length and shell width, can be used as a new typical growth trait to represent the growth rate of H. cumingii. [ABSTRACT FROM AUTHOR]

Published

2024

40. Ecological factors influencing invasive predator survival and movement: insights from a continental-scale study of feral cats in Australia.

Author

Menon, Vishnu, McGregor, Hugh, Giljohann, Kate, Wintle, Brendan, Pascoe, Jack, Robley, Alan, Johnston, Michael, Fancourt, Bronwyn, Bengsen, Andrew, Buckmaster, Tony, Comer, Sarah, Hamer, Rowena, Friend, Tony, Jansen, Jeroen, Zewe, Frances, Fleming, Peter, Ballard, Guy, Moseby, Katherine, Gentle, Matthew, and Scomparin, Cyril

Abstract

Feral cats (Felis catus) pose a significant global threat to biodiversity, primarily through predation, disease and competition. A key gap in parameterizing models for improving management decisions for feral cat control relates to factors that drive feral cat survival and movement in the wild. Our study objective was to conduct the first continental-scale analysis of survival rates and displacement distances for feral cats. We collated data on 528 feral cats from telemetry studies in naturally-vegetated landscapes across Australia. Using Cox-proportional hazards models, we investigated the effects of sex, presence of larger predators (dingoes, Canis familiaris and introduced foxes, Vulpes vulpes), presence of introduced prey (rabbits, Oryctolagus cuniculus), body mass, landscape productivity and feral cat density on feral cat survival. We also analysed the effects of sex, body mass and landscape productivity on feral cat displacement using linear mixed model analysis. Feral cat survival was positively associated with presence of dingoes and increasing body mass, whereas there was no clear association between feral cat survival and sex, presence of rabbits, or cat density. Presence of foxes had a strong negative effect on feral cat survival, but the hazard ratio was associated with considerable uncertainty. Net displacement of male feral cats was nearly two times further than that of females, and the proportion of feral cats making long-distance movements was greater in landscapes with low productivity. Increasing body mass of feral cats was positively related to net displacement, with heavier cats moving further. Analysis of metadata from telemetry studies can provide valuable insights into wildlife survival rates and movement behaviour. Our findings will help inform the development of effective management strategies and improve feral cat management for biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published

2024

41. Intraspecific scaling and early life history determine the cost of free‐flight in a large beetle (Batocera rufomaculata).

Author

Urca, Tomer, Levin, Eran, Gefen, Eran, and Ribak, Gal

Subjects

*INSECT flight, *BEETLES, *STABLE isotopes, *COST, *CARBON isotopes, *INSECTS

Abstract

The scaling of the energetic cost of locomotion with body mass is well documented at the interspecific level. However, methodological restrictions limit our understanding of the scaling of flight metabolic rate (MR) in free‐flying insects. This is particularly true at the intraspecific level, where variation in body mass and flight energetics may have direct consequences for the fitness of an individual. We applied a 13C stable isotope method to investigate the scaling of MR with body mass during free‐flight in the beetle Batocera rufomaculata. This species exhibits large intraspecific variation in adult body mass as a consequence of the environmental conditions during larval growth. We show that the flight‐MR scales with body mass to the power of 0.57, with smaller conspecifics possessing up to 2.3 fold higher mass‐specific flight MR than larger ones. Whereas the scaling exponent of free‐flight MR was found to be like that determined for tethered‐flight, the energy expenditure during free‐flight was more than 2.7 fold higher than for tethered‐flight. The metabolic cost of flight should therefore be studied under free‐flight conditions, a requirement now enabled by the 13C technique described herein for insect flight. [ABSTRACT FROM AUTHOR]

Published

2024

42. Afromontane understory birds increase in body size over four decades.

Author

Neate‐Clegg, Montague H. C., Tingley, Morgan W., and Newmark, William D.

Subjects

*BODY size, *CLIMATE change, *BIOGEOGRAPHY

Abstract

Of the myriad responses to climate change, an emerging trend is the widespread decrease in animal body size with warming temperatures. Birds, in particular, have been shown to be decreasing in body size in several areas – most notably the Amazon Basin and temperate North America – but trends in much of the world remain unexplored. Here, we analyze temporal trends and climatic associations of body mass for 42 resident bird species over 36 years in the Usambara Mountains of Tanzania, a tropical montane global biodiversity hotspot. In addition, we assess trends in wing length and mass:wing ratio over 21 years. Finally, we examine whether species‐specific trends in body mass are related to average body size or to trends in apparent survival. Overall, species' average body mass in the Usambara Mountains increased by 0.023 g decade‐1, amounting to increases of 4.1% over 36 years. These long‐term shifts in body mass were strongly and positively associated with annual mean temperature but showed no relationship with precipitation. Wing length increased on average by 2.0% over a 21‐year period, yet there was mixed evidence for trends in mass:wing ratio, suggesting that body size in general is increasing. While percentage trends in body mass were not related to trends in apparent annual survival, smaller species did display greater proportional increases in body mass. Although the drivers of increased body size remain unclear – and climate change cannot be ruled out – such increases among Afrotropical montane birds provide an intriguing counterpoint to observed declines in body mass elsewhere and suggest that trends in body mass in tropical birds may be mediated by biogeography or other abiotic or biotic drivers. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Practice of Weight Loss in Combat Sports Athletes: A Systematic Review.

Author

Zhong, Yuming, Song, Yuou, Artioli, Guilherme Giannini, Gee, Thomas I., French, Duncan N., Zheng, Hang, Lyu, Mengde, and Li, Yongming

Abstract

The aim of this systematic review is to comprehensively assess the weight loss (WL) practices in different combat sports (CS). The review protocol was preregistered with PROSPERO [CRD42023487196]. Three databases were searched (Web of Science, EBSCOhost, and PubMed) until 8 December 2023. Eligible studies had to meet five criteria: they must have been (a) written in English, (b) published in a peer-reviewed journal, (c) used a survey design to investigate the WL practices of CS athletes, and (d) reported the WL methods used by athletes using a five-point scale. Twenty-six studies (3994 participants from 14 CS) were included. This review found that (1) WL is highly prevalent in CS athletes; (2) many CS athletes started losing weight for competition as teenagers two to three times a year; (3) CS athletes usually lose <5% body weight in 7–14 days before competition; (4) increasing exercise and gradually dieting are the most commonly used WL methods; and (5) the influence of scientific practitioners on athletes is negligible. The habitual practices of CS athletes may be relatively harmless, but in some special cases, CS athletes also perform extreme WL practices. Scientific practitioners have little influence on their WL practices, which may form a vicious cycle of non-qualified influence. [ABSTRACT FROM AUTHOR]

Published

2024

44. Psychomotor skills of Kickboxing athletes and their correlation with training experience, body mass, and technical-tactical skill levels.

Author

NIEWCZAS, MARTA, AMBROZY, TADEUSZ, OBMINSKI, ZBIGNIEW, WASACZ, WOJCIECH, KASICKI, KRZYSZTOF, and RYDZIK, LUKASZ

Subjects

KICKBOXING, ATHLETE training, REACTION time, STATURE, SPORTS competitions, COMBAT sports

Abstract

Copyright of Ido Movement for Culture. Journal of Martial Arts Anthropology is the property of Idokan Poland Association and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

45. Body composition profile of Brazilian national circus school students.

Author

Coelho Bortoleto, Marco Antonio, Castro, Alex, and Bellotto, Maria Luisa

Subjects

BODY composition, LEAN body mass, ADIPOSE tissues, BODY mass index, CIRCUS, FAT

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

46. نقش توده بدنی تعادل کارکردی و هماهنگی حرکتی در پیش بینی کیفیت زندگی نظامیان مرد مبتلا به اختلال استرس پس از سانحه (PTSD).

Author

سعید آهار, حسین برزگری مروس, and حسین صمدی

Subjects

*MOTOR ability, *CONVENIENCE sampling (Statistics), *PEARSON correlation (Statistics), *POST-traumatic stress disorder, *BODY mass index

Abstract

Introduction: Post-traumatic stress disorder (PTSD) is a chronic psychiatric disorder linked to physical and mental illnesses, impacting cognitive-motor skills and daily functioning. Objective: This study aims to assess the influence of body mass, functional balance, and motor coordination on the quality of life among male military personnel with PTSD. Materials and Methods: The descriptive-correlational study involved male military personnel aged 30 to 55 with PTSD from medical centers of FARAJA, SEPAH, and the Ministry of Defense, in 2021. A Convenience sample of 60 subjects participated voluntarily. Quality of life (SF-36), Berg functional balance, and tandem gait tests were utilized. Data analysis included Pearson’s correlation coefficient and multivariate linear regression Results: Pearson correlation revealed significant associations between quality of life and functional balance (r=0.790), motor coordination (r=0.672) and body mass index (r=0.640). Linear regression indicated that functional balance (23%), motor coordination (10%), and body mass (10%) scores could predict quality of life in male military personnel with PTSD (P≤0.01). Conclusion: Body mass index, functional balance and movement coordination motor coordination are predictive factors for quality of life of male military personnel with PTSD. Changes in body mass index affecting physical stability, balance loss posing a fear of falling, and reduced movement coordination impacting physical skill execution efficiency can significantly influence quality of life. [ABSTRACT FROM AUTHOR]

Published

2024

47. Meta‐analysis of risk of major adverse cardiovascular events in adults with type 2 diabetes treated with bexagliflozin.

Author

McMurray, John J. V., Solomon, Scott D., Lock, J. Paul, Massaro, Joseph M., Zhu, Fang, Zhou, Wenjiong, Skali, Hicham, Lewis, Eldrin F., Freeman, Mason W., and Halvorsen, Yuan‐Di C.

Subjects

*MAJOR adverse cardiovascular events, *TYPE 2 diabetes, *ANGINA pectoris

Abstract

Aim: To explore the risk of major adverse cardiovascular events (MACE) associated with exposure to bexagliflozin. Methods: The analysis included 4090 participants with type 2 diabetes (T2D) enrolled in nine phase 2 and 3 double‐blind randomized controlled trials. All potential MACE were adjudicated by a blinded committee. The primary endpoint for the meta‐analysis was the hazard ratio (HR) for the time to first occurrence of non‐fatal stroke, non‐fatal myocardial infarction (MI), cardiovascular (CV) death or hospitalization for unstable angina (MACE+), tested for non‐inferiority to a ratio of 1.8. The secondary endpoints were time to first occurrence of (i) non‐fatal stroke, non‐fatal MI or CV death (MACE), tested for non‐inferiority to a ratio of 1.3; and (ii) CV death or hospitalization for heart failure, tested for superiority. Results: The HR for the primary endpoint of MACE+ was 0.80 (95% confidence interval [CI] 0.58, 1.09), which fulfilled the non‐inferiority objective with a P value of less than 0.0001. Non‐inferiority for the first key secondary endpoint of MACE was also shown (HR = 0.82; 95% CI 0.59, 1.13; P = 0.0023). Superiority for time to CV death or first hospitalization for heart failure was not shown. Conclusions: Bexagliflozin did not increase the risk of MACE in participants with T2D when compared with placebo or active control. Both the preapproval and postapproval thresholds for CV safety were met and bexagliflozin has been approved by the US Food and Drug Administration. [ABSTRACT FROM AUTHOR]

Published

2024

48. Genetic risk score for gestational weight gain.

Author

Mikołajczyk-Stecyna, Joanna, Zuk, Ewelina, Seremak-Mrozikiewicz, Agnieszka, Kurzawińska, Grażyna, Wolski, Hubert, Drews, Krzysztof, and Chmurzynska, Agata

Subjects

*GENETIC risk score, *WEIGHT gain, *GENETIC variation, *GENETIC polymorphisms, *SINGLE nucleotide polymorphisms

Abstract

• Women with increased gestational weight gain (GWG) have higher preconception BMI than other women. • GRS, which is a sum of the risk alleles of FTO , LEPR , LEP and GNB3 , is positively associated with GWG. • Polymorphism of TMEM18 , GNB3 , GNPDA2 and LEPR also seem to play a role in GWG. Gestational weight gain (GWG) involves health consequences for both mother and offspring. Genetic factors seem to play a role in the GWG trait. For small effect sizes of a single genetic polymorphism (SNP), a genetic risk score (GRS) summarizing risk-associated variation from multiple SNPs can serve as an effective approach to genetic association analysis. The aim of the study was to analyze the association between genetic risk score (GRS) and gestational weight gain (GWG). GWG was calculated for a total of 342 healthy Polish women of Caucasian origin, aged 19 to 45 years. The SNPs rs9939609 (FTO), rs6548238 (TMEM18), rs17782313 (MC4R), rs10938397 (GNPDA2), rs10913469 (SEC16B), rs1137101 (LEPR), rs7799039 (LEP), and rs5443 (GNB3) were genotyped using commercial TaqMan SNP assays. A simple genetic risk score was calculated into two ways: GRS1 based on the sum of risk alleles from each of the SNPs, while GRS2 based on the sum of risk alleles of FTO , LEPR , LEP , and GNB3. Positive association between GRS2 and GWG (β = 0.12, p = 0.029) was observed. Genetic risk variants of TMEM18 (p = 0.006, OR = 2.6) and GNB3 (p < 0.001, OR = 3.3) are more frequent in women with increased GWG, but a risk variant of GNPDA2 (p < 0.001, OR = 2.7) is more frequent in women with adequate GWG, and a risk variant of LEPR (p = 0.011, OR = 3.1) in women with decreased GWG. GRS2 and genetic variants of TMEM18 , GNB3 , GNPDA2 , and LEPR are associated with weight gain during pregnancy. [ABSTRACT FROM AUTHOR]

Published

2024

49. The Sardinian Mammoth's Evolutionary History: Lights and Shadows.

Author

Palombo, Maria Rita, Zedda, Marco, and Zoboli, Daniel

Subjects

MAMMOTHS, FOOTPRINTS, ENDEMIC species, FOSSILS, POPULATION dynamics, PLEISTOCENE Epoch

Abstract

The dwarf Sardinian mammoth, Mammuthus lamarmorai, is a well-known species frequently cited in the literature; however, the fossil record of the Pleistocene Sardinian mammoths mainly consists of isolated remains (an incomplete skeleton from Guardia Pisano Hill, isolated teeth and a largely incomplete tibia from different localities, and some footprints from Funtana Morimenta), which have been found in sites presumably ranging in age from the late Middle to the Late Pleistocene. All of the remains have been ascribed to a single species of an endemic mammoth, Mammuthus lamarmorai, which is moderately reduced in size. The paucity of remains increases uncertainties about the chronological range of Sardinian mammoth remains, some of which are currently missing, while others lack sound information about their exact provenance or were removed and collected without contextual information. As a result, the different sizes of molariform teeth from different localities, the lack of chewing tooth remains at Guardia Pisano Hill, and the doubtful chronology of some remains hamper any attempt to infer whether one or more species that originated from an anagenetic or radiative evolutionary process or through multiple arrivals from the mainland inhabited the island. Therefore, the continental ancestor or ancestors of Sardinian mammoth populations and the time and number of dispersals of the ancestral taxon or taxa have long been debated, and the persistence through time of mammoth endemic populations still remains an unsolved matter. This research summarizes and critically reviews our knowledge about the Sardinian endemic mammoth, provides new evidence about the Sardinian mammoth's ancestor and the possible time of its dispersal from the mainland to the island, gives new information about the Sardinian mammoth's histology and physical characteristics, and highlights some focal, unsolved questions (e.g., morphological and dimensional differences in dentition, number of Sardinian mammoth species, population dynamics, decline, and disappearance). Further research and increasing data, which will enable taphonomic, spectrometric, and dating studies, will provide better results to solve the remaining questions. [ABSTRACT FROM AUTHOR]

Published

2024

50. The Risk of Orthorexia and the Prevalence of Emotional Eating Behaviours among Polish Military Flying Personnel in Relation to Body Mass Index (BMI) and Sociodemographic Factors.

Author

Gaździńska, Agata, Jagielski, Paweł, and Baran, Paulina

Abstract

Background: Proper nutrition has a positive impact on health. Paradoxically, excessive preoccupation with healthy eating may lead to the emergence of abnormal eating behaviours and increase the risk of developing disorders. The aim of this study was to assess the risk of orthorexia (ON) and the prevalence of emotional eating (EE) in military flying personnel of the Polish Air Force in relation to BMI and sociodemographic factors. Methods: This study included 760 soldiers (including 60 females) taking part in the National Health Programme 2021–2025. The ORTO-15 questionnaire and EEQ were used to assess the risk of ON and EE. Results: The risk of ON occurred in 28.9% of military flying personnel and was significantly more frequent in soldiers with a normal weight (46.4%), under 40 years of age (42.7%), and with higher education (42.7%). The prevalence of EE was found in approximately 12.3% of the respondents and was significantly more common in soldiers with diagnosed obesity (17.5%), women (21.7%), and soldiers with higher education (13.6). Other sociodemographic variables did not differentiate the results of the ORTO-15 questionnaire and EEQ. Conclusions: The obtained results indicate that the problem of eating disorders also occurs in military populations. The necessity of continuing research in this area is discussed. [ABSTRACT FROM AUTHOR]

Published

2024