Your search keyword '"Deer growth & development"' showing total 202 results

1. A consensus genome of sika deer (Cervus nippon) and transcriptome analysis provided novel insights on the regulation mechanism of transcript factor in antler development.

Author

Wang Q, Han R, Xing H, and Li H

Subjects

Animals, Male, Transcription Factors genetics, Transcription Factors metabolism, Gene Expression Profiling, Transcriptome, Genomics methods, Deer genetics, Deer growth & development, Antlers growth & development, Antlers metabolism, Genome

Abstract

Background: Sika deer (Cervus nippon) holds significance among cervids, with three genomes recently published. However, these genomes still contain hundreds of gaps and display significant discrepancies in continuity and accuracy. This poses challenges to functional genomics research and the selection of an appropriate reference genome. Thus, obtaining a high-quality reference genome is imperative to delve into functional genomics effectively., Findings: Here we report a high-quality consensus genome of male sika deer. All 34 chromosomes are assembled into single-contig pseudomolecules without any gaps, which is the most complete assembly. The genome size is 2.7G with 23,284 protein-coding genes. Comparative genomics analysis found that the genomes of sika deer and red deer are highly conserved, an approximately 2.4G collinear regions with up to 99% sequence similarity. Meanwhile, we observed the fusion of red deer's Chr23 and Chr4 during evolution, forming sika deer's Chr1. Additionally, we identified 607 transcription factors (TFs) that are involved in the regulation of antler development, including RUNX2, SOX6, SOX8, SOX9, PAX8, SIX2, SIX4, SIX6, SPI1, NFAC1, KLHL8, ZN710, JDP2, and TWST2, based on this consensus reference genome., Conclusions: Our results indicated that we acquired a high-quality consensus reference genome. That provided valuable resources for understanding functional genomics. In addition, discovered the genetic basis of sika-red hybrid fertility and identified 607 significant TFs that impact antler development., (© 2024. The Author(s).)

Published

2024

2. Early life investment in antlers and body growth reflects adult performance in roe deer population under supplementary feeding conditions.

Author

Peláez M, Sanuy I, Peral JC, Esteban JLÁ, Lavín S, Serrano E, and Perea R

Subjects

Animal Feed, Animals, Antlers physiology, Body Size, Deer growth & development, Feeding Behavior physiology, Male, Phenotype, Seasons, Antlers growth & development, Deer physiology

Abstract

Recent research has challenged the idea that cervid antlers are such costly traits, supporting the assertion early-life antler investment is an honest signal of adult phenotypic quality. However, inferences were made based on antler measurements while growing (velvet) and thus, studies on fully-formed clean antlers are needed to avoid possible bias caused by the inter-individual variation in antler growth phenology. We studied a semi-captive population of European roe deer inhabiting a sub-Mediterranean area (Valsemana research station) and living under optimal conditions (ad libitum food supply and veterinary care). Based on repeated measurements taken from 146 individuals, we assessed whether allocation to secondary sexual traits during early life affected body mass or antler development during adulthood. Furthermore, we evaluated which body measurements better predicted future male quality. Additionally, using 488 individuals, we described age-class-specific variation in male body measurements and assessed the decline in antler size between adult and senescent stages (i.e. magnitude of senescence). Results agree with the assertion that there is no negative effect of a high investment in antler during early life on adult antler size or body mass, but we suggest the use of clean antlers as a more robust and reliable measure. The variables that better predicted body mass during adulthood were yearling body mass and body size at 6 months. Antler score between 10 and 18 months resulted in the best indicator of adult antler size. Finally, we support the idea that the magnitude of senescence in antler size is smaller in environments with higher resource availability during winter., (© 2021 International Society of Zoological Sciences, Institute of Zoology/Chinese Academy of Sciences and John Wiley & Sons Australia, Ltd.)

Published

2022

3. Characterization of intestinal microbiota and fecal cortisol, T3, and IgA in forest musk deer (Moschus berezovskii) from birth to weaning.

Author

Li Y, Zhang T, Shi M, Zhang B, Hu X, Xu S, Ding J, Liu S, Hu D, and Rubenstein D

Subjects

Animals, Animals, Newborn microbiology, Bacteria classification, Bacteria genetics, Deer growth & development, Diet veterinary, Hydrocortisone analysis, Immunoglobulin A analysis, Triiodothyronine analysis, Weaning, Deer microbiology, Feces chemistry, Feces microbiology, Gastrointestinal Microbiome physiology

Abstract

Analysis of the intestinal microbiota and physiological parameters in mammalian infancy can reveal health status. In this study, we used a combination of molecular and immunochemical approaches to assess fecal microbiota as well as Cortisol (Cor), Triiodothyronine (T3), and immunoglobulin A (IgA) levels of young forest musk deer (FMD), from birth to one month after weaning (7 days of age-110 days of age). During development as the diet of FMD changes from consuming milk to eating plants, the richness and diversity of intestinal microbiota of young FMD increased significantly. Cor levels remained unchanged throughout early development while significantly increased after weaning, T3 and IgA initially were derived from milk during lactation, significantly decreased after weaning. Correlation network analysis showed that the community of food-oriented microbes were highly structured and that many genera were correlated. Overall, this study provides scientific insights into effective management strategies for the protection of FMD population., (© 2021 The Authors. Integrative Zoology published by International Society of Zoological Sciences, Institute of Zoology/Chinese Academy of Sciences and John Wiley & Sons Australia, Ltd.)

Published

2021

4. Water sprinkling as a tool for heat abatement in farmed Iberian red deer: Effects on calf growth and behaviour.

Author

Pérez-Barbería FJ, Arroyo-González I, García AJ, Serrano MP, Gallego L, and Landete-Castillejos T

Subjects

Animals, Animals, Domestic growth & development, Animals, Domestic psychology, Behavior, Animal, Body Weight, Female, Hot Temperature, Male, Weaning, Deer growth & development, Deer psychology, Water administration & dosage

Abstract

Climatic models predict scenarios in which ambient temperature will continue increasing worldwide. Under these climatic conditions, fitness and animal welfare of many populations are expected to suffer, especially those that live in captive or semi-natural conditions, where opportunities of heat abatement are limited. We undertook an experimental design to assess the effect of heat abatement that water sprinkling might have on Iberian red deer calf growth and behaviour from birth to weaning (135 days). One group of ten mother-calf pairs lived on plots with water sprinkling (treatment) available during summer's hottest time of the day, while the control group (nine mother-calf pairs) occupied plots with no available water sprinkling. Treatment and control groups were fed ad libitum and swapped between plots every seven days to minimise any plot effect. Body weight was monitored weekly and individual behaviour was recorded once or twice a week at mid-day. We observed that calves had showers under the sprinklers and wallowed in mud puddles. The results clearly indicated that calves of the treatment group showed a significant increase in body weight at weaning in comparison with the control group, with no differences between sexes (treatment: male = 56.5 kg, female = 50.3 kg; control: male = 50.3 kg, female = 46.5 kg). Mother weight and mother age effects were negligible on calf body weight at weaning. The heavier the mother the faster was the rate of growth of its offspring, irrespective of calf sex. The model indicated that although males grew significantly slower than female calves in the control group, males grew faster than females when exposed to the treatment. Calves of the treatment group spent less time drinking, less time in the shade, similar time eating and more time in motion than calves of the control group. There were no behavioural differences between calf sexes of treatment and control groups. The results indicate the importance of providing animals with opportunities of heat abatement in hot environments to improve animal growth and welfare in farmed Iberian red deer., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

5. Effects of supplemental feeding on the fecal bacterial communities of Rocky Mountain elk in the Greater Yellowstone Ecosystem.

Author

Couch CE, Wise BL, Scurlock BM, Rogerson JD, Fuda RK, Cole EK, Szcodronski KE, Sepulveda AJ, Hutchins PR, and Cross PC

Subjects

Animals, Animals, Wild, Bacteria growth & development, Deer microbiology, Animal Diseases prevention & control, Animal Feed analysis, Bacteria classification, Deer growth & development, Feces microbiology, Gastrointestinal Microbiome

Abstract

Supplemental feeding of wildlife is a common practice often undertaken for recreational or management purposes, but it may have unintended consequences for animal health. Understanding cryptic effects of diet supplementation on the gut microbiomes of wild mammals is important to inform conservation and management strategies. Multiple laboratory studies have demonstrated the importance of the gut microbiome for extracting and synthesizing nutrients, modulating host immunity, and many other vital host functions, but these relationships can be disrupted by dietary perturbation. The well-described interplay between diet, the microbiome, and host health in laboratory and human systems highlights the need to understand the consequences of supplemental feeding on the microbiomes of free-ranging animal populations. This study describes changes to the gut microbiomes of wild elk under different supplemental feeding regimes. We demonstrated significant cross-sectional variation between elk at different feeding locations and identified several relatively low-abundance bacterial genera that differed between fed versus unfed groups. In addition, we followed four of these populations through mid-season changes in supplemental feeding regimes and demonstrated a significant shift in microbiome composition in a single population that changed from natural forage to supplementation with alfalfa pellets. Some of the taxonomic shifts in this population mirrored changes associated with ruminal acidosis in domestic livestock. We discerned no significant changes in the population that shifted from natural forage to hay supplementation, or in the populations that changed from one type of hay to another. Our results suggest that supplementation with alfalfa pellets alters the native gut microbiome of elk, with potential implications for population health., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

6. To beat or not to beat: Behavioral plasticity during the antler growth period affects cortisol but not testosterone concentrations in red deer (Cervus elaphus) males.

Author

Esattore B, Villagrán M, Pluháček J, Komárková M, Dušek A, Kotrba R, Bartošová J, and Bartoš L

Subjects

Agonistic Behavior, Animals, Body Weight, Male, Seasons, Antlers growth & development, Behavior, Animal, Deer growth & development, Hydrocortisone metabolism, Testosterone metabolism

Abstract

Out of rut, male red deer (Cervus elaphus) associate themselves in bachelor groups where animals compete for rank position via agonistic interactions. In a previous study on red deer, males were recognized either as "Non-Fighters" (NF, low frequency of attacks) or "Fighters" (F, high frequency of attacks). This study, therefore, aims to verify the consistency of the inter-individual differences in fighting attitude across different social contexts and investigate whether they could be considered an individual characteristic. Behavioral consistency was presumed across three different sampling seasons, assuming that NF would have lower cortisol (C) and testosterone (T) concentrations than the F males. In 2015 the males were kept in one large group and labelled NF and F. In 2016, the herd was divided into two subgroups ("NF" and "F") based on the frequency of attacks. Finally, in 2017, the males were divided into two randomly composed subgroups. Data about agonistic behavior and concentration of C and T were collected during each season. In 2015 the individuals differed only for the fighting attitude. After the division, the frequency of the attacks always increased, being consistently lower in NF than in F. Unexpectedly, a slight increase in the concentration of C was detected in the NF in 2016, compared to the F who experienced no difference neither in 2015 nor 2017. No significant differences were found in T. We concluded that, even though the males had shown behavioral plasticity, their diversified interaction-prone attitude had been maintained despite the modifications of the social environment., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

7. Novel insights into Dhh signaling in antler chondrocyte proliferation and differentiation: Involvement of Foxa.

Author

Ma L, Duan CC, Yang ZQ, Ding JL, Liu S, Yue ZP, and Guo B

Subjects

Animals, Antlers metabolism, Cartilage growth & development, Cartilage metabolism, Cell Cycle genetics, Cell Differentiation genetics, Chondrocytes metabolism, Core Binding Factor Alpha 1 Subunit genetics, Deer genetics, Deer growth & development, Hedgehog Proteins genetics, Leydig Cells cytology, Leydig Cells pathology, Male, Signal Transduction, Antlers growth & development, Chondrogenesis genetics, Forkhead Transcription Factors genetics, Spermatogenesis genetics

Abstract

The desert hedgehog (Dhh) is crucial for spermatogenesis and Leydig cell differentiation, but little is known regarding its physiological function in cartilage. In this study, Dhh mRNA was abundant in antler chondrocytes, where it advanced cell proliferation concomitant with accelerated transition from the G1 to the S phase and induced elevation of the hypertrophic chondrocyte markers, Col X and Runx2. Silencing of Ptch1 resulted in appreciable Smo accumulation and enhanced rDhh stimulation of Smo, whose impediment by cyclopamine obscured the proliferative function of Dhh and alleviated its guidance of chondrocyte differentiation. Further analysis evidenced the noteworthy positive action of Smo in the bridging between Dhh and Gli transcription factors. Obstruction of Gli1 by GANT58 caused the failed stimulation of Col X and Runx2 by rDhh. Analogously, siRNA against Gli1-3 hindered chondrocyte differentiation in the context of rDhh. Simultaneously, Gli transcription factors mediated the regulation of Dhh on Foxa1, Foxa2, and Foxa3, whose knockdown impaired chondrocyte differentiation. Attenuation of Foxa antagonized the augmentation of Col X and Runx2 generated by rDhh. Collectively, Dhh signaling through its target Foxa appears to induce antler chondrocyte proliferation and differentiation., (© 2020 Wiley Periodicals, Inc.)

Published

2020

8. Formation, structure, and function of extra-skeletal bones in mammals.

Author

Nasoori A

Subjects

Animals, Antlers anatomy & histology, Antlers growth & development, Armadillos anatomy & histology, Armadillos growth & development, Bone and Bones embryology, Clitoris anatomy & histology, Deer growth & development, Female, Giraffes anatomy & histology, Giraffes growth & development, Horns anatomy & histology, Horns growth & development, Male, Mammals growth & development, Penis anatomy & histology, Ruminants growth & development, Skin embryology, Skin growth & development, Subcutaneous Tissue anatomy & histology, Subcutaneous Tissue embryology, Antlers physiology, Deer anatomy & histology, Horns physiology, Mammals anatomy & histology, Mammals physiology, Ruminants anatomy & histology

Abstract

This review describes the formation, structure, and function of bony compartments in antlers, horns, ossicones, osteoderm and the os penis/os clitoris (collectively referred to herein as AHOOO structures) in extant mammals. AHOOOs are extra-skeletal bones that originate from subcutaneous (dermal) tissues in a wide variety of mammals, and this review elaborates on the co-development of the bone and skin in these structures. During foetal stages, primordial cells for the bony compartments arise in subcutaneous tissues. The epithelial-mesenchymal transition is assumed to play a key role in the differentiation of bone, cartilage, skin and other tissues in AHOOO structures. AHOOO ossification takes place after skeletal bone formation, and may depend on sexual maturity. Skin keratinization occurs in tandem with ossification and may be under the control of androgens. Both endochondral and intramembranous ossification participate in bony compartment formation. There is variation in gradients of density in different AHOOO structures. These gradients, which vary according to function and species, primarily reduce mechanical stress. Anchorage of AHOOOs to their surrounding tissues fortifies these structures and is accomplished by bone-bone fusion and Sharpey fibres. The presence of the integument is essential for the protection and function of the bony compartments. Three major functions can be attributed to AHOOOs: mechanical, visual, and thermoregulatory. This review provides the first extensive comparative description of the skeletal and integumentary systems of AHOOOs in a variety of mammals., (© 2020 Cambridge Philosophical Society.)

Published

2020

9. Development of novel EST microsatellite markers for genetic diversity analysis and correlation analysis of velvet antler growth characteristics in Sika deer.

Author

Jia B, Wang G, Zheng J, Yang W, Chang S, Zhang J, Liu Y, Li Q, Ge C, Chen G, Liu D, and Yang F

Subjects

Animals, Gene Expression Profiling, Genetic Markers, Genetic Testing, Quantitative Trait Loci, Quantitative Trait, Heritable, Transcriptome, Antlers growth & development, Deer genetics, Deer growth & development, Expressed Sequence Tags, Genetic Association Studies, Genetic Variation, Microsatellite Repeats

Abstract

Background: Sika deer is one of the most popular and valued animals in China. However, few studies have been conducted on the microsatellite of Sika deer, which has hampered the progress of genetic selection breeding. To develop and characterize a set of microsatellites for Sika deer which provide helpful information for protection of Sika deer natural resources and effectively increase the yield and quantity of velvet antler., Results: We conducted a transcriptome survey of Sika deer using next-generation sequencing technology. One hundred eighty-two thousand two hundred ninety-five microsatellite markers were identified in the transcriptome, 170 of 200 loci were successfully amplified across panels of 140 individuals from Shuangyang Sika deer population. And 29 loci were found to be obvious polymorphic. Number of alleles is from 3 to 14. The expected heterozygosity ranged from 0.3087 to 0.7644. The observed heterozygosity ranged from 0 to 0.7698. The polymorphism information content values of those microsatellites varied ranged from 0.2602 to 0.7507. The marker-trait association was tested for 6 important and kernel characteristics of two-branched velvet antler in Shuangyang Sika deer through one-way analysis of variance. The results showed that marker-trait associations were identified with 8 different markers, especially M009 and M027., Conclusions: This study not only provided a large scale of microsatellites which were valuable for future genetic mapping and trait association in Sika deer, but also offers available information for molecular breeding in Sika deer.

Published

2020

10. The Antler Cycle and Fecal Testosterone of Male Sambar Deer Rusa unicolor unicolor at the Horton Plains National Park in Sri Lanka.

Author

Weerasekera DS, Perera SJ, Nanayakkara DKK, Herath HMSS, Rathnasekara ANL, and Ranawana KB

Subjects

Animals, Feces chemistry, Grassland, Male, Parks, Recreational, Seasons, Sri Lanka, Antlers growth & development, Antlers physiology, Deer growth & development, Deer metabolism, Deer physiology, Testosterone analysis, Testosterone physiology

Abstract

This study is aimed at evaluating the relationship between endogenous testosterone levels and antler development in male sambar deer ( Rusa unicolor unicolor ) inhabiting the Horton Plains National Park, Sri Lanka. Seven antler growth stages of sambar were documented based on phenotypic observations for the first time in Sri Lanka as (a) cast, (b) growing 1-single spike, (c) growing 2-antler fork into a Y as the second tine appears, (d) growing 3-velvet begins to harden as the third tine appears, (e) growth completed-velvet shedding begins, (f) hard antler, and (g) casting. Fecal samples were collected every month for a period of eighteen months from male sambar deer in different stages of the antler growth cycle, feeding in the wet patana grasslands of the park, and the fecal testosterone level was estimated by radioimmunoassay. Ten animals were randomly selected from each antler stage for the experiment. The results disclose that the highest concentrations of testosterone were recorded in the hard antler stage. Velvet shedding was preceded by an increase in the testosterone level, and it is the sudden drop in the testosterone concentration which triggers the antler casting. The casting stage corresponded with the lowest mean testosterone concentration. Although the study was able to conclude a clear relationship between the fecal testosterone levels of the male sambar deer in the Horton Plains National Park and their antler stages, there is no clear seasonality for the antler cycle., Competing Interests: The authors declare that they have no conflicts of interest., (Copyright © 2020 D. S. Weerasekera et al.)

Published

2020

11. Heat stress reduces growth rate of red deer calf: Climate warming implications.

Author

Pérez-Barbería FJ, García AJ, Cappelli J, Landete-Castillejos T, Serrano MP, and Gallego L

Subjects

Animals, Climate Change, Deer physiology, Female, Humidity, Male, Weaning, Acclimatization, Body Size, Deer growth & development, Heat-Shock Response

Abstract

Climate models agree in predicting scenarios of global warming. In endothermic species heat stress takes place when they are upper their thermal neutral zone. Any physiological or behavioural mechanism to mitigate heat stress is at the cost of diverting energy from other physiological functions, with negative repercussions for individual fitness. Tolerance to heat stress differs between species, age classes and sexes, those with the highest metabolic rates being the most sensitive to stressing thermal environments. This is especially important during the first months of life, when most growth takes place. Red deer (Cervus elaphus) is supposedly well adapted to a wide range of thermal environments, based on its worldwide distribution range, but little is known about the direct effect that heat stress may have on calf growth. We assessed the effect that heat stress, measured by heat stress indices and physical environment variables (air temperature, relative air humidity, wind speed and solar radiation), have on calf and mother body weights from calf´s birth to weaning. We used 9265 longitudinal weekly body weight records of calf and mother across 19 years in captive Iberian red deer. We hypothesised that (i) heat stress in hot environments has a negative effect on calf growth, especially in males, as they are more energetically demanding to produce than females; and that (ii) the body weight of the mother through lactation should be negatively affected by heat stress. Our results supported hypothesis (i) but not so clearly hypothesis (ii). By weaning (day 143) calves growing under low heat stress environment grew up to 1.2 kg heavier than those growing in high heat stress environment, and males were more affected by heat stress than females. The results have implications in animal welfare, geographical clines in body size and adaptation to climate change., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

12. Effects of Dietary Supplementation with Selenium and Vitamin E on Growth Performance, Nutrient Apparent Digestibility and Blood Parameters in Female Sika Deer (Cervus nippon).

Author

Bao K, Wang X, Wang K, Yang Y, and Li G

Subjects

Animals, Deer growth & development, Deer metabolism, Dietary Supplements, Female, Nutrients administration & dosage, Nutrients blood, Selenium administration & dosage, Selenium blood, Vitamin E administration & dosage, Vitamin E blood, Nutrients pharmacology, Selenium pharmacology, Vitamin E pharmacology

Abstract

To evaluate the effects of selenium (Se) and vitamin E (Vit E) on female sika deer. This study was conducted using a 3 × 2 + 1 factorial experiment. Depending on treatment design, the deer were fed with the basal diet supplemented with 0.2, 0.3, and 0.4 mg of selenium as well as 100 and 200 IU of vitamin E per kg of dry matter (DM). Accordingly, six groups named G1 to G6 are involved in this study. In addition, group G0 was available in the study, in which the deer were fed with only basal diet. The results show that the final body weight (BW), average daily gain (ADG), and apparent digestibility of crude protein, ether extract, and neutral detergent fiber of the deer in G1 to G6 increased as the selenium level increased from 0.2 to 0.3 mg per kg of DM (P < 0.05). Higher IgG content of the deer was observed with the intake of selenium and vitamin E (P < 0.05). The total content of protein of the deer in G3 was higher than that in G0 (P < 0.05), and the activity of glutathione peroxidase increased following the increase in the supplementation levels of selenium and vitamin E (P < 0.05). Furthermore, selenium had significant effects on the concentration of T4 and T3 (P < 0.05). The optimum levels of selenium and vitamin E for 1-year-old female sika deer were 0.3 mg and 100 IU per kg of dietary DM, respectively.

Published

2020

13. No Evidence of Hepatitis E Virus Infection in Farmed Deer in Germany.

Author

Trojnar E, Kästner B, and Johne R

Subjects

Animals, Deer blood, Deer growth & development, Enzyme-Linked Immunosorbent Assay, Farms, Germany, Hepatitis Antibodies blood, Hepatitis E virology, Hepatitis E virus classification, Hepatitis E virus genetics, Hepatitis E virus immunology, RNA, Viral genetics, Deer virology, Hepatitis E veterinary, Hepatitis E virus isolation & purification

Abstract

Hepatitis E virus (HEV) is a zoonotic agent, which is mainly transmitted by consumption of undercooked meat products originating from infected animals. Domestic pigs and wild boars are the major animal reservoirs, but HEV infections have been also repeatedly described in wild deer species. However, farmed deer has been only sparsely investigated so far. Here, 108 blood and 106 liver samples from fallow deer, red deer, and sika deer strictly hold in game enclosures from 11 farms in Germany were analyzed for markers of HEV infection. Using a commercial double antigen sandwich ELISA, 3/108 (2.7%) serum samples were scored borderline for HEV-specific antibodies, whereas the remaining samples were negative. No HEV-RNA (0%) was detected in the 106 liver samples. The results suggest a low risk of HEV infection in farmed deer in Germany.

Published

2020

14. An improved understanding of ungulate population dynamics using count data: Insights from western Montana.

Author

Paterson JT, Proffitt K, Rotella J, and Garrott R

Subjects

Animals, Animals, Wild, Demography, Female, Male, Models, Biological, Montana epidemiology, Parks, Recreational, Population Density, Population Dynamics, Problem Solving, Seasons, Conservation of Natural Resources methods, Deer growth & development

Abstract

Understanding the dynamics of ungulate populations is critical given their ecological and economic importance. In particular, the ability to evaluate the evidence for potential drivers of variation in population trajectories is important for informed management. However, the use of age ratio data (e.g., juveniles:adult females) as an index of variation in population dynamics is hindered by a lack of statistical power and difficult interpretation. Here, we show that the use of a population model based on count, classification and harvest data can dramatically improve the understanding of ungulate population dynamics by: 1) providing estimates of vital rates (e.g., per capita recruitment and population growth) that are easier to interpret and more useful to managers than age ratios and 2) increasing the power to assess potential sources of variation in key vital rates. We used a time series of elk (Cervus canadensis) spring count and classification data (2004 to 2016) and fall harvest data from hunting districts in western Montana to construct a population model to estimate vital rates and assess evidence for an association between a series of environmental covariates and indices of predator abundance on per capita recruitment rates of elk calves. Our results suggest that per capita recruitment rates were negatively associated with cold and wet springs, and severe winters, and positively associated with summer precipitation. In contrast, an analysis of the raw age ratio data failed to detect these relationships. Our approach based on a population model provided estimates of the region-wide mean per capita recruitment rate (mean = 0.25, 90% CI = 0.21, 0.29), temporal variation in hunting-district-specific recruitment rates (minimum = 0.09; 90% CI = [0.07, 0.11], maximum = 0.43; 90% CI = [0.38, 0.48]), and annual population growth rates (minimum = 0.83; 90% CI = [0.78, 0.87], maximum = 1.20; 90% CI = [1.11, 1.29]). We recommend using routinely collected population count and classification data and a population modeling approach rather than interpreting estimated age ratios as a substantial improvement in understanding population dynamics., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

15. Embryonic and fetal development of the red brocket deer (Mazama americana).

Author

Mayor P, Habner de Souza Pereira T, Andrade RDS, González-Benavent E, Barros Monteiro FO, Bodmer R, Valsecchi J, and El Bizri HR

Subjects

Animals, Deer growth & development, Female, Fetus anatomy & histology, Fetus pathology, Regression Analysis, Ultrasonography, Prenatal veterinary, Deer embryology, Embryonic Development, Fetal Development

Abstract

The red brocket deer (Mazama americana), a medium-sized Neotropical ungulate, is one of the most hunted mammals in the Amazon. This study analyzes the intrauterine development in the red brocket deer through the description of the external and internal morphology in one embryo and 38 fetuses collected from animals hunted for subsistence in the Amazon. The chronological order of occurrence of external characteristics in relation to the total dorsal length (TDL) was: differentiated genitalia, limbs and eyelid buds (TDL = 3.9 cm), fusioned eyelids, outer ear and hooves (TDL ≥ 9.5 cm), skin (TDL ≥ 20.4 cm), tactile pelage and nasal pigmentation (TDL ≥ 21.5 cm), covering pelage and skin spots (TDL ≥ 31.3 cm), and teeth eruption and opened eyelids (TDL ≥ 34.2 cm). The formula of fetal age was ∛W = 0.072 (t - 42), with a high linear relationship between TDL and gestational age. Multiple linear and non-linear regressions showed strong positive associations between biometric measures and absolute visceral weights with TDL. The relative weight of the tubular gastrointestinal organs, spleen and thymus increased during the fetal development; in contrast, the liver and kidneys' relative weight diminished during the fetal development. Advanced fetuses (≥44.0 cm TDL) had lower proportion of liver and larger tubular gastrointestinal organs within the visceral weight than adults. The chronology of appearance of the main events of the fetal development suggests that the red brocket deer adopt some precocial features, such as the early development of the sensorial function, including the early development of eyelids, outer ear and tactile pelage, the early development of the covering pelage which acts in thermoregulation and the early teeth eruption which allows the early foraging. Nevertheless, the precocial level of the red brocket deer is apparently lower than other species more frequently predated by large felids, such as peccaries and the paca., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

16. Calibration of life history traits with epiphyseal closure, dental eruption and bone histology in captive and wild red deer.

Author

Calderón T, DeMiguel D, Arnold W, Stalder G, and Köhler M

Subjects

Animals, Dentition, Female, Femur anatomy & histology, Growth Charts, Male, Sex Characteristics, Tibia anatomy & histology, Tooth Wear, Age Determination by Skeleton, Age Determination by Teeth, Deer growth & development, Epiphyses physiology, Life History Traits

Abstract

The study of skeletochronology and bone tissue as a record of information on ontogenetic stages and events is widely used for improving the knowledge about life histories (LHs) of extinct and extant vertebrates. Compared with dinosaurs and extant reptiles, mammalian bone histology has received little attention. Here, we calibrate for the first time bone and dental age with histological bone characteristics and LH stages in ontogenetic series of red deer. We rely on known LHs of different aged individuals of captive Cervus elaphus hippelaphus from Austria to correlate epiphyseal closure, dental eruption pattern, bone growth marks and bone tissue patterns in femora and tibiae, and of wild Cervus elaphus hispanicus from Spain. Our data show that females (of both subspecies) attain skeletal maturity earlier than males. At this moment, epiphyseal closure (in femora and tibiae) and dental eruption are complete and long bones start to deposit an external fundamental system. The results also show that the attainment of reproductive maturity in red deer occurs slightly before skeletal maturity., (© 2019 Anatomical Society.)

Published

2019

17. Heterogeneous development of methanogens and the correlation with bacteria in the rumen and cecum of sika deer (Cervus nippon) during early life suggest different ecology relevance.

Author

Li Z, Wang X, Zhang T, Si H, Xu C, Wright AG, and Li G

Subjects

Age Factors, Anaerobiosis, Animals, Bacteria genetics, Bacteria isolation & purification, Bacteria metabolism, Deer microbiology, Methane metabolism, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacteria classification, Cecum microbiology, Deer growth & development, High-Throughput Nucleotide Sequencing methods, Rumen microbiology

Abstract

Background: Enteric methane from the ruminant livestock is a significant source in global greenhouse gas emissions, which is mainly generated by the methanogens inhabiting the rumen and cecum. Sika deer (Cervus nippon) not only produces less methane than bovine, but they also harbor a distinct methanogen community. Whereas, knowledge of methanogens colonization in the rumen and cecum of sika deer is relatively still unknown, which could provide more insights to the manipulation of gut microbiota during early life., Results: Here, we examined the development of bacteria and methanogens in the rumen and cecum of juvenile sika deer from birth to post-weaning (1 day, 42 days and 70 days, respectively) based on next generation sequencing. The results showed that the facultative anaerobic bacteria were decreased and the cellulolytic bacteria were increased. However, methanogens established soon after birth thrived through the whole developmental period, indicating a different succession process than bacteria in the GIT, and the limited role of age and dietary change on GIT methanogens. We also found Methanobrevibacter spp. (Mean relative abundance = 44.2%) and Methanocorpusculum spp. (Mean relative abundance = 57.5%) were dominated in the rumen and cecum, respectively. The methanogens also formed specific correlations with bacteria under different niches, suggesting a role of ecology niche on methanogen community., Conclusions: This study contributes to our knowledge about the microbial succession in GIT of sika deer, that may facilitate the development of targeted strategies to improve GIT function of sika deer.

Published

2019

18. Full-length transcriptome and microRNA sequencing reveal the specific gene-regulation network of velvet antler in sika deer with extremely different velvet antler weight.

Author

Hu P, Wang T, Liu H, Xu J, Wang L, Zhao P, and Xing X

Subjects

Animals, Deer genetics, Gene Expression Regulation, Developmental genetics, Gene Regulatory Networks genetics, Humans, Regeneration genetics, Antlers growth & development, Deer growth & development, MicroRNAs genetics, Transcriptome genetics

Abstract

Velvet antler displays the fastest and most robust tissue proliferation in the animal world, it is a model for a complete organ development/regeneration, and alternative medicine, tonic made from velvet antler, was beneficial for human. The weight of velvet antler had high biomedical and economic value, but the related regulation mechanisms controlling velvet antler weight remain unclear. In this study, extremely heavy and light velvet antler groups were selected from a sika deer population of 100 individuals with extreme velvet antler weight. A combination of full-length transcriptome sequencing and microRNA sequencing to the proliferation zone in the tip of velvet antler was applied. A total of 55306 transcripts and 1082 microRNAs were identified. Some highly expressed genes (COL1A1, COL1A2, COL3A1, FN1, and ATP6) and microRNAs (miR-21, let-7i, and miR-27b) were highly correlated with the physiological and growth characteristics of velvet antlers. Among the 334 differentially expressed genes, we found that most of the genes were located in the developmental process, especially animal organ development process. It is exciting to see that more blood vessels were found in the growing tip of heavy velvet antler through histological observation, and GO term of blood vessel development was also significant different between two groups. The combination analysis with mRNA and microRNA data in velvet antler showed a specific regulation network involved in the development of bone, mesenchyme, cartilage, and blood vessel, and helped us clearly find out the candidate 14 genes and 6 microRNAs, which could be used for selecting significant DNA markers of velvet antler weight.

Published

2019

19. Carcass and meat quality characteristics from Iberian wild red deer (Cervus elaphus) hunted at different ages.

Author

Maggiolino A, Pateiro M, Serrano MP, Landete-Castillejos T, Domínguez R, García A, Gallego L, De Palo P, and Lorenzo JM

Subjects

Abattoirs, Age Factors, Animals, Animals, Wild growth & development, Cooking, Humans, Muscle, Skeletal chemistry, Spain, Taste, Deer growth & development, Meat analysis

Abstract

Background: Deer-meat consumption is increasing in several countries based on claims that it is a healthy red meat. This study assessed the effect of slaughter age (low - 26 months and younger; medium - from 27 months to younger than 42 months; and high - 42 months and older) on carcass characteristics and meat physicochemical properties of 150 Iberian wild red deer., Results: Whole carcass yields of neck, backbone and flank increased (P < 0.001) with age, while yields of shoulder, tenderloin and leg decreased (P < 0.05) with age. The pH measured at 48 h post mortem at 9th rib level was not affected by age, while pH measured at 72 h post mortem at the longissimus thoracis et lumborum muscle decreased (P < 0.05) with age. Meat chemical composition was not affected by slaughter age, except for intramuscular fat (IMF), which increased (P < 0.05) with slaughter age. Finally, cooking loss and shear force were higher (P < 0.05) in meat from older deer., Conclusion: Most characteristics of meat from wild red deer depend on age at slaughter. The greater IMF of meat from older animals may render it more palatable. However, meat shear force also increased with age. Additional studies testing palatability seem to be necessary to evaluate the effects of slaughter age on the sensorial quality of meat from Iberian wild red deer. © 2018 Society of Chemical Industry., (© 2018 Society of Chemical Industry.)

Published

2019

20. Effect of age on nutritional properties of Iberian wild red deer meat.

Author

Lorenzo JM, Maggiolino A, Gallego L, Pateiro M, Serrano MP, Domínguez R, García A, Landete-Castillejos T, and De Palo P

Subjects

Age Factors, Amino Acids analysis, Animals, Cholesterol analysis, Fatty Acids analysis, Minerals analysis, Nutritive Value, Spain, Animals, Wild growth & development, Deer growth & development, Red Meat analysis

Abstract

Background: This study assessed the effect of age (L, less than 27 months old; M, from 27 to 42 months old; H, 43 months and older) on the fatty acid profile, cholesterol content, amino acid composition and mineral content of 150 Iberian wild red deer meat samples., Results: Intramuscular fat content increased (P < 0.05) with age (0.05 vs 0.12 vs 0.34% for L, M and H groups respectively), while cholesterol content decreased (P < 0.05) as the slaughter age increased (52.78 vs 48.72 vs 45.34 mg per 100 g meat for L, M and H groups respectively). The slaughter age showed differences among groups for saturated fatty acids, with the highest content in older animals (30.41 vs 34.55 vs 38.21% for L, M and H groups respectively), whereas younger deer displayed the highest polyunsaturated fatty acid levels (50.05 vs 45.24 vs 37.55% for L, M and H groups respectively). The n-6/n-3 ratio was more favorable (P < 0.05) for young and medium ages compared with that for older animals. In contrast, amino acid profile and mineral content were only slightly affected by age., Conclusion: As a general conclusion, wild red deer meat could be considered a good alternative to red meats for human consumption. © 2018 Society of Chemical Industry., (© 2018 Society of Chemical Industry.)

Published

2019

21. Transcriptomic analysis of different tissue layers in antler growth Center in Sika Deer (Cervus nippon).

Author

Ba H, Wang D, Yau TO, Shang Y, and Li C

Subjects

Animals, Antlers growth & development, Cartilage growth & development, Chondrogenesis genetics, Deer growth & development, Gene Expression Regulation, Developmental genetics, Male, Organ Specificity genetics, Osteogenesis genetics, Cell Differentiation genetics, Deer genetics, Gene Expression Profiling, Transcriptome genetics

Abstract

Background: With the unprecedented rapid growth rate (up to 2.75 cm/day), velvet antler is an invaluable model for the identification of potent growth factors and signaling networks for extremely fast growing tissues, mainly cartilage. Antler growth center (AGC) locates in its tip and consists of five tissue layers: reserve mesenchyme (RM), precartilage (PC), transition zone (TZ), cartilage (CA) and mineralized cartilage (MC). The aim of this study was to investigate the transcription dynamics in the AGC using RNA-seq technology., Results: Five tissue layers in the AGC were collected from three 3-year-old male sika deer using our previously reported sampling method (morphologically distinguishable). After sequencing (15 samples; triplicates/tissue layer), we assembled a reference transcriptome de novo and used RNA-seq to measure gene expression profiles across these five layers. Nine differentially expressed genes (DEGs) were selected from our data and subsequently verified using qRT-PCR. The results showed a high consistency with the RNA-seq results (R 2  = 0.80). Nine modules were constructed based on co-expression network analysis, and these modules contained 370 hub genes. These genes were found to be mainly involved in mesenchymal progenitor cell proliferation, chondrogenesis, osteogenesis and angiogenesis. Combination of our own results with the previously published reports, we found that Wnt signaling likely plays a key role not only in stimulating the antler stem cells or their immediate progeny, but also in promoting chondrogenesis and osteogenesis during antler development., Conclusion: We have successfully assembled a reference transcriptome, generated gene expression profiling across the five tissue layers in the AGC, and identified nine co-expressed modules that contain 370 hub genes and genes predorminantly expressed in and highly relevant to each tissue layer. We believe our findings have laid the foundation for the identification of novel genes for rapid proliferation and chondrogenic differentiation of antler cells.

Published

2019

22. Identification of the miRNA-mRNA regulatory network of antler growth centers.

Author

Yao B, Zhang M, Liu M, Lu B, Leng X, Hu Y, Zhao D, and Zhao YU

Subjects

Animals, Antlers metabolism, Chondrogenesis genetics, Deer growth & development, Gene Expression Regulation, Developmental, High-Throughput Nucleotide Sequencing, Osteogenesis genetics, Antlers growth & development, Deer genetics, MicroRNAs genetics, RNA, Messenger genetics

Abstract

Antler growth is a unique event compared to other growth and development processes in mammals. Antlers grow extremely fast during the rapid growth stage when growth rate peaks at 2 cm per day. Antler growth is driven by a specific endochondral ossification process in the growth center that is in the distal region of the antler tip. In this study, we used state-of-art RNA-seq technology to analyze the expression profiles of mRNAs and miRNAs during antler growth. Our results indicated that the expression levels of multiple genes involved in chondrogenesis and endochondral ossification, including Fn1, Sox9, Col2a1, Acan, Col9a1, Col11a1, Hapln1, Wwp2, Fgfr3, Comp, Sp7 and Ihh , were significantly increased at the rapid growth stage. Our results also indicated that there were multiple differentially expressed miRNAs interacting with differentially expressed genes with opposite expression patterns. Furthermore, some of the miRNAs, including miR-3072-5p, miR-1600, miR-34-5p, miR-6889-5p and miR-6729-5p, simultaneously interacted with and controlled multiple genes involved in the process of chondrogenesis and endochondral ossification. Therefore, we established a miRNA-mRNA regulatory network by identifying miRNAs and their target genes that were differentially expressed in the antler growth centers by comparing the rapid growth stage and the initial growth stage.

Published

2019

23. Ecotype Variation in Trace Element Content of Hard Tissues in the European Roe Deer (Capreolus capreolus).

Author

Demesko J, Markowski J, Demesko E, Słaba M, Hejduk J, and Minias P

Subjects

Animals, Animals, Wild, Bone and Bones chemistry, Deer metabolism, Europe, Humans, Tooth chemistry, Deer growth & development, Ecotype, Environmental Monitoring methods, Fluorides analysis, Metals, Heavy analysis, Trace Elements analysis

Abstract

Animals living in anthropogenic habitats bear a multitude of costs, which are directly or indirectly associated with human activities. Among others, an elevated exposure to environmental pollution can have negative consequences for wildlife populations. We examined the differences in the concentrations of trace elements between the field and forest ecotype of the European roe deer (Capreolus capreolus). Naturally, roe deer inhabited various types of woodlands (forest ecotype), but within the last century, they adapted to life in a human-transformed agricultural areas (field ecotype), which could be associated with an increased exposure to pollution. In this study, we measured concentrations of seven trace metals (barium, copper, iron, lead, manganese, strontium, zinc) and fluoride in skull bones and permanent teeth of more than 230 roe deer from 8 study plots in East-Central Europe. We found that field roe deer had higher concentrations of four trace metals (copper, iron, lead, strontium) and fluoride compared with forest roe deer. These differences were consistent with variations in the general level of environmental contamination within the study plots, as assessed with trace element content in wild plants. Our study indicates that bone and teeth of the European roe deer can be used as a valid indicator of environmental pollution. Also, we expect that elevated exposure of field roe deer to environmental pollution can have negative consequences for wild populations of this species, as well as for the consumers of venison.

Published

2019

24. Does body growth impair immune function in a large herbivore?

Author

Cheynel L, Douhard F, Gilot-Fromont E, Rey B, Débias F, Pardonnet S, Carbillet J, Verheyden H, Hewison AJM, Pellerin M, Gaillard JM, and Lemaître JF

Subjects

Animals, Female, Herbivory, Phenotype, Reproduction, Deer growth & development, Deer immunology

Abstract

According to the principle of allocation, trade-offs are inevitable when resources allocated to one biological function are no longer available for other functions. Growth, and to a lesser extent, immunity are energetically costly functions that may compete with allocation to reproductive success and survival. However, whether high allocation to growth impairs immune system development during the growing period or immune system performance during adulthood is currently unknown in wild mammals. Using three roe deer (Capreolus capreolus) populations experiencing contrasting environmental conditions, we tested for potential costs of growth on immune phenotype over both the short-term (during growth), and the long-term (during adulthood) over the course of an individuals' life. We investigated potential costs on a set of 12 immune traits that reflect both innate and adaptive responses, and compared them between sexes and populations. Although fast growth tended to be associated with low levels of some humoral traits (globulins) during the growing period and some cellular immune traits (i.e. eosinophil and neutrophil counts) during adulthood, evidence for a trade-off between growth and other immune components was limited. Unexpectedly, no detectable growth costs on immunity were found in females from the population experiencing the least favourable environment. We discuss our findings in the light of the complex interplay between resource allocation strategies among reproduction, maintenance and immunity, in relation to local environmental conditions experienced by roe deer.

Published

2019

25. Transcriptomic characterization elucidates a signaling network that controls antler growth.

Author

Yao B, Zhang M, Liu M, Liu Y, Hu Y, and Zhao Y

Subjects

Animals, Antlers metabolism, Gene Expression Profiling, Sequence Analysis, RNA, Transcriptome, Antlers growth & development, Deer genetics, Deer growth & development, Signal Transduction genetics

Abstract

Deer antlers are amazing appendages with the fastest growth rate among mammalian organs. Antler growth is driven by the growth center through a modified endochondral ossification process. Thus, identification of signaling pathways functioning in antler growth center would help us to uncover the underlying molecular mechanism of rapid antler growth. Furthermore, exploring and dissecting the molecular mechanism that regulates antler growth is extremely important and helpful for identifying methods to enhance long bone growth and treat cartilage- and bone-related diseases. In this study, we build a comprehensive intercellular signaling network in antler growth centers from both the slow growth stage and rapid growth stage using a state-of-art RNA-Seq approach. This network includes differentially expressed genes that regulate the activation of multiple signaling pathways, including the regulation of actin cytoskeleton, calcium signaling, and adherens junction. These signaling pathways coordinately control multiple biological processes, including chondrocyte proliferation and differentiation, matrix homeostasis, mechanobiology, and aging processes, during antler growth in a comprehensive and efficient manner. Therefore, our study provides novel insights into the molecular mechanisms regulating antler growth and provides valuable and powerful insight for medical research on therapeutic strategies targeting skeletal disorders and related cartilage and bone diseases.

Published

2018

26. Predation shapes the evolutionary traits of cervid weapons.

Author

Metz MC, Emlen DJ, Stahler DR, MacNulty DR, Smith DW, and Hebblewhite M

Subjects

Animals, Antlers growth & development, Deer growth & development, Female, Male, Parks, Recreational, Wyoming, Antlers physiology, Deer physiology, Food Chain, Predatory Behavior, Wolves physiology

Abstract

Sexually selected weapons evolved to maximize the individual reproductive success of males in many polygynous breeding species. Many weapons are also retained outside of reproductive periods for secondary reasons, but the importance of these secondary functions is poorly understood. Here we leveraged a unique opportunity from the predator-prey system in northern Yellowstone National Park, WY, USA to evaluate whether predation by a widespread, coursing predator (wolves) has influenced a specific weapon trait (antler retention time) in their primary cervid prey (elk). Male elk face a trade-off: individuals casting antlers early begin regrowth before other males, resulting in relatively larger antlers the following year, and thus greater reproductive success, as indicated by research with red deer. We show, however, that male elk that cast their antlers early are preferentially hunted and killed by wolves, despite early casters being in better nutritional condition than antlered individuals. Our results run counter to classic expectations of coursing predators preferring poorer-conditioned individuals, and in so doing, reveal an important secondary function for an exaggerated sexually selected weapon-predatory deterrence. We suggest this secondary function played a key evolutionary role in elk; uniquely among North American cervids, they retain their antlers long after they fulfil their primary role in reproduction.

Published

2018

27. Weather and landscape factors affect white-tailed deer neonate survival at ecologically important life stages in the Northern Great Plains.

Author

Michel ES, Jenks JA, Kaskie KD, Klaver RW, and Jensen WF

Subjects

Animals, Deer physiology, Ecology, Ecosystem, Geography, Seasons, United States, Weather, Animals, Newborn growth & development, Deer growth & development, Survival physiology

Abstract

Offspring survival is generally more variable than adult survival and may limit population growth. Although white-tailed deer neonate survival has been intensively investigated, recent work has emphasized how specific cover types influence neonate survival at local scales (single study area). These localized investigations have often led to inconsistences within the literature. Developing specific hypotheses describing the relationships among environmental, habitat, and landscape factors influencing white-tailed deer neonate survival at regional scales may allow for detection of generalized patterns. Therefore, we developed 11 hypotheses representing the various effects of environmental (e.g., winter and spring weather), habitat (e.g., hiding and escape cover types), and landscape factors (e.g., landscape configuration regardless of specific cover type available) on white-tailed deer neonate survival up to one-month and from one- to three-months of age. At one-month, surviving fawns experienced a warmer lowest recorded June temperature and more June precipitation than those that perished. At three-months, patch connectance (percent of patches of the corresponding patch type that are connected within a predefined distance) positively influenced survival. Our results are consistent with white-tailed deer neonate ecology: increased spring temperature and precipitation are likely associated with a flush of nutritional resources available to the mother, promoting increased lactation efficiency and neonate growth early in life. In contrast, reduced spring temperature with increased precipitation place neonates at risk to hypothermia. Increased patch connectance likely reflects increased escape cover available within a neonate's home range after they are able to flee from predators. If suitable escape cover is available on the landscape, then managers could focus efforts towards manipulating landscape configuration (patch connectance) to promote increased neonate survival while monitoring spring weather to assess potential influences on current year survival.

Published

2018

28. Lateralization during lateral display and its relationship with antler size and symmetry in fallow deer (Dama dama).

Author

Jennings DJ and Gammell MP

Subjects

Aggression physiology, Animals, Antlers cytology, Male, Walking physiology, Antlers physiology, Deer anatomy & histology, Deer growth & development, Functional Laterality physiology

Abstract

Individuals often display a preference for one side of their body during aggressive encounters. This may be a lateralized preference for using one structure of a bilateral trait during display or physical attack, or for keeping the opponent in one visual field. Alternatively, it may be the case that behavioural lateralization and the degree of symmetry expressed by bilateral structures are correlated forms of developmental instability. We examined whether there was an association between lateralization during a lateral display and different measurements of antler size and symmetry (beam length, beam circumference, brow tine length and coronet circumference). Three models addressed different structural measures: the right antler, the larger antler and antler symmetry. Results showed that beam length was negatively associated with behavioural lateralization irrespective of structural measure. A second analysis using a composite score of the four antler measurements, one for each structural measure, showed that only antler symmetry was negatively associated with lateralization during lateral display. Therefore, our second prediction was supported. We discuss these findings in relation to predator detection capability and stress reduction in prey species such as the fallow deer.

Published

2018

29. Sox9 Functions as a Master Regulator of Antler Growth by Controlling Multiple Cell Lineages.

Author

Yao B, Zhang M, Liu M, Wang Q, Liu M, and Zhao Y

Subjects

Animals, Cartilage metabolism, Cell Differentiation physiology, Cell Lineage, Cell Proliferation physiology, Chondrocytes metabolism, Chondrogenesis physiology, Deer growth & development, Deer metabolism, Gene Expression Regulation physiology, MicroRNAs metabolism, Antlers growth & development, Antlers metabolism, SOX9 Transcription Factor metabolism

Abstract

Deer antlers are amazing natural appendages that grow faster than any other known mammalian bone. Antler growth occurs at the tip and is initially cartilage, which is later replaced by bone tissue. However, little is known regarding the precise role of cooperation between cell lineages and functional genes in regulating antler growth, and molecular mechanisms responsible for rapid growth remain elusive. In this study, we use an RNA-Seq approach to elucidate the full spectrum of cell lineages, functional genes, and their cooperative interactions during antler growth. We identify Sox9 as a pivotal transcription factor during chondrogenesis and skeletal development expressed in the chondrocyte lineage from the multipotent mesenchymal precursor stage through most subsequent cell differentiation stages with a particularly strong activity in proliferating and prehypertrophic chondrocytes. Furthermore, we analyze the miRNA expression patterns at initial growth stage and rapid growth stage and identify several miRNAs that involve in regulating antler chondrogenesis and rapid growth. Among these miRNAs, miR-140 plays pivotal role during antler growth by targeting Sox9 and vice versa.

Published

2018

30. Influence of Precipitation and Crop Germination on Resource Selection by Mule Deer (Odocoileus hemionus) in Southwest Colorado.

Author

Carrollo EM, Johnson HE, Fischer JW, Hammond M, Dorsey PD, Anderson C, Vercauteren KC, and Walter WD

Subjects

Agriculture methods, Animals, Climate, Colorado, Locomotion, Animal Distribution, Deer growth & development, Feeding Behavior

Abstract

Mule deer (Odocoileus hemionus) populations in the western United States provide many benefits to local economies but can also cause considerable damage to agriculture, particularly damage to lucrative crops. Limited information exists to understand resource selection of mule deer in response to annual variation in crop rotation and climatic conditions. We tested the hypothesis that mule deer select certain crops, and in particular sunflower, based on annual climatic variability. Our objective was to use movements, estimates of home range, and resource selection analysis to identify resources selected by mule deer. We used annually-derived crop-specific datasets along with Global Positioning System collars to monitor 14 mule deer in an agricultural area near public lands in southwestern Colorado, USA. We estimated home ranges for two winter seasons that ranged between 7.68 and 9.88 km 2 , and for two summer seasons that ranged between 5.51 and 6.24 km 2 . Mule deer selected areas closer to forest and alfalfa for most periods during 2012, but selected areas closer to sunflower in a majority of periods during 2013. Considerable annual variation in climate patterns and precipitation levels appeared to influence selection by mule deer because of variability in crop rotation and success of germination of specific crops.

Published

2017

31. Protocol for Assessing the Relative Effects of Environment and Genetics on Antler and Body Growth for a Long-lived Cervid.

Author

Michel ES, Flinn EB, Demarais S, Strickland BK, Wang G, and Dacus CM

Subjects

Animal Nutritional Physiological Phenomena, Animals, Antlers anatomy & histology, Body Size genetics, Diet, Ecosystem, Female, Male, Mississippi, Phenotype, Soil, Telemetry instrumentation, Telemetry methods, Antlers growth & development, Deer genetics, Deer growth & development

Abstract

Cervid phenotype can be placed into one of two categories: efficiency, which promotes survival over extravagant morphometric growth, and luxury, which promotes growth of large weaponry and body size. Populations of the same species display each phenotype depending on environmental conditions. Although antler and body size of male white-tailed deer (Odocoileus virginianus) varies by physiographic region in Mississippi, USA and is strongly correlated with regional variation in nutritional quality, the effects of population-level genetics from native stocks and previous re-stocking efforts cannot be disregarded. This protocol describes how we designed a controlled study, where other factors that influence phenotype, such as age and nutrition, are controlled. We brought wild-caught pregnant females and six-month-old fawns from three distinct physiographic regions in Mississippi, USA to the Mississippi State University Rusty Dawkins Memorial Deer Unit. Deer from the same region were bred to produce a second generation of offspring, allowing us to assess generational responses and maternal effects. All deer ate the same high-quality (20% crude protein deer pellet) diet ad libitum. We uniquely marked each neonate and recorded body mass, hind foot, and total body length. Each subsequent fall, we sedated individuals via remote injection and sampled the same morphometrics plus antlers of adults. We found that all morphometrics increased in size from first to second generation, with full compensation of antler size (regional variation no longer present) and partial compensation of body mass (some evidence of regional variation) evident in the second generation. Second generation males that originated from our poorest quality soil region displayed about a 40% increase in antler size and about a 25% increase in body mass when compared to their wild harvested counterparts. Our results suggest phenotypic variation of wild male white-tailed deer in Mississippi are more related to differences in nutritional quality than population-level genetics.

Published

2017

32. Effects of dietary manganese supplementation on nutrient digestibility and production performance in male sika deer (Cervus Nippon).

Author

Bao K, Wang K, Wang X, Zhang T, Liu H, and Li G

Subjects

Animals, Food, Male, Manganese pharmacology, Animal Nutritional Physiological Phenomena drug effects, Deer growth & development, Deer physiology, Diet veterinary, Dietary Supplements, Digestive System Physiological Phenomena drug effects, Manganese administration & dosage, Proteolysis drug effects

Abstract

This study aimed to investigate the effects of manganese (Mn) supplementation on nutrient digestibility and antler growth in male sika deer. Twenty 3-year-old male sika deer were divided into four groups (Control, T40, T80 and T120). The control diet contained 22.2 mg Mn/kg. The treatment diets were supplemented with 40, 80 and 120 mg of Mn/kg (provided as Mn methionine). The results showed that the digestibility of dry matter and crude protein in the T80 group was greater than other groups. Higher digestibility of neutral detergent fiber and acid detergent fiber was observed in the T80 group than in the control group. Plasma Mn concentrations in the T80 and T120 groups were higher (P < 0.01) than control and T40 group (P < 0.01). The concentration of Mn in feces was increased with increasing Mn amount. Average daily gain of fresh antler and dry antler of T80 was greater than other groups, especially the control group (P < 0.05). In conclusion, the suitable level of Mn supplementation was found to be 80 mg/kg (total Mn content 103.4 mg/kg dry matter), which significantly increased antler daily gain and feed digestibility in 3-year-old sika deer., (© 2016 Japanese Society of Animal Science.)

Published

2017

33. [Structural–Functional Condition of the Thyroid Gland of Red Deer at Different Stages of Postnatal Ontogenesis].

Author

Ovcharenko ND, Vlasova OE, and Gribanova OG

Subjects

Animals, Aging physiology, Deer growth & development, Thyroid Gland cytology, Thyroid Gland growth & development

Abstract

The histological structure and morphometric and some histochemical indices of thyroid gland of maral as a subspecies of red deer at the postnatal stage of ontogenesis were studied. It was established that the gland was structurally formed by the time of the birth. C-cells are detected at 6 months of age. With age, the ratio of follicles of different sizes changed: smaller forms predominate in newborns and those 6 months old, medium and large predominate in adults and in old deer. Histological, morphometric, and histochemical data indicate to activation of the thyroid gland in the period of intensive growth for up to 6 months and a gradual decrease in activity over the next years of life. During aging, along with an increase in stromal elements, large follicles with colloid are stretched and resorption processes in the follicles are reduced.

Published

2016

34. iTRAQ-Based Quantitative Proteomic Analysis of the Potentiated and Dormant Antler Stem Cells.

Author

Dong Z, Ba H, Zhang W, Coates D, and Li C

Subjects

Animals, Antlers metabolism, Chromatography, Liquid, Deer genetics, Gene Expression Regulation, Developmental, Protein Biosynthesis genetics, Proteome genetics, Regenerative Medicine, Signal Transduction genetics, Stem Cells metabolism, Tandem Mass Spectrometry, Antlers growth & development, Deer growth & development, Proteome biosynthesis, Stem Cells cytology

Abstract

As the only known organ that can completely regenerate in mammals, deer antler is of real significance in the field of regenerative medicine. Recent studies have shown that the regenerative capacity of the antlers comes from the pedicle periosteum and the cells resident in the periosteum possess the attributes of stem cells. Currently, the molecular mechanism of antler regeneration remains unclear. In the present study, we compared the potentiated and dormant antler stem cells using isobaric tags for the relative and absolute quantification (iTRAQ) labeling of the peptides, coupled with two-dimensional liquid chromatography-tandem mass spectrometry (LC-MS/MS) to compare the proteome profiles. Proteins were identified by searching against the NCBI nr database and our own Cervine transcriptome database, and bioinformatics analysis was conducted to identify the differentially expressed proteins. Based on this searching strategy, we identified 169 differentially expressed proteins in total, consisting of 70 up- and 99 down-regulated in the potentiated vs. dormant antler stem cells. Reliability of the iTRAQ was confirmed via quantitative real-time polymerase chain reaction (qRT-PCR) to measure the expression of selected genes. We identified transduction pathways through the Kyoto Encyclopedia of Genes and Genomes (KEGG) database, such as HIF-1 and PI3K-AKT signaling pathways that play important roles in regulating the regeneration of antlers. In summary, the initiation stage of antler regeneration, a process from dormant to potentiated states in antler stem cells, is regulated by multiple proteins and complicated signal networks., Competing Interests: The authors declare no conflict of interest.

Published

2016

35. MicroRNA profiling of antler stem cells in potentiated and dormant states and their potential roles in antler regeneration.

Author

Ba H, Wang D, and Li C

Subjects

Animals, Antlers cytology, Deer genetics, Deer growth & development, MicroRNAs genetics, Stem Cells metabolism, Antlers metabolism, High-Throughput Nucleotide Sequencing, MicroRNAs biosynthesis, Regeneration genetics

Abstract

MicroRNAs (miRNAs) can effectively regulate gene expression at the post-transcriptional level and play a critical role in tissue growth, development and regeneration. Our previous studies showed that antler regeneration is a stem cell-based process and antler stem cells reside in the periosteum of a pedicle, the permanent bony protuberance, from which antler regeneration takes place. Antlers are the only mammalian organ that can fully regenerate and hence provide a unique opportunity to identify miRNAs that are involved in organ regeneration. In the present study, we used next generation sequencing technology sequenced miRNAs of the stem cells derived from either the potentiated or the dormant pedicle periosteum. A population of both conserved and 20 deer-specific miRNAs was identified. These conserved miRNAs were derived from 453 homologous hairpin precursors across 88 animal species, and were further grouped into 167 miRNA families. Among them, the miR-296 is embryonic stem cell-specific. The potentiation process resulted in the significant regulation (>±2 Fold, q value <0.05) of conserved miRNAs; 8 miRNA transcripts were down- and 6 up-regulated. Several GO biology processes and the Wnt, MAPK and TGF-beta signaling pathways were found to be up-regulated as part of antlerogenic stem cell potentiation process. This research has identified miRNAs that are associated either with the dormant or the potentiated antler stem cells and identified some target miRNAs for further research into their role played in mammalian organ regeneration.

Published

2016

36. Inbreeding depression across the lifespan in a wild mammal population.

Author

Huisman J, Kruuk LE, Ellis PA, Clutton-Brock T, and Pemberton JM

Subjects

Animals, Animals, Wild genetics, Animals, Wild growth & development, Animals, Wild physiology, Deer growth & development, Deer physiology, Evolution, Molecular, Female, Genetic Fitness, Inbreeding, Male, Pedigree, Polymorphism, Single Nucleotide, Pregnancy, Scotland, Deer genetics

Abstract

Inbreeding depression is of major concern for the conservation of threatened species, and inbreeding avoidance is thought to be a key driver in the evolution of mating systems. However, the estimation of individual inbreeding coefficients in natural populations has been challenging, and, consequently, the full effect of inbreeding on fitness remains unclear. Genomic inbreeding coefficients may resolve the long-standing paucity of data on inbreeding depression in adult traits and total fitness. Here we investigate inbreeding depression in a range of life history traits and fitness in a wild population of red deer (Cervus elaphus) in Scotland using individual inbreeding coefficients derived from dense Single-Nucleotide Polymorphism (SNP) data (Fgrm). We find associations between[Formula: see text]and annual breeding success in both sexes, and between maternal inbreeding coefficient and offspring survival. We also confirm previous findings of inbreeding depression in birth weight and juvenile survival. In contrast, inbreeding coefficients calculated from a deep and comparatively complete pedigree detected inbreeding depression in juvenile survival, but not in any adult fitness component. The total effect of inbreeding on lifetime breeding success (LBS) was substantial in both sexes: for Fgrm = 0.125, a value resulting from a half-sib mating, LBS declined by 72% for females and 95% for males. Our results demonstrate that SNP-based estimates of inbreeding provide a powerful tool for evaluating inbreeding depression in natural populations, and suggest that, to date, the prevalence of inbreeding depression in adult traits may have been underestimated.

Published

2016

37. Forecasting the Effects of Fertility Control on Overabundant Ungulates: White-Tailed Deer in the National Capital Region.

Author

Raiho AM, Hooten MB, Bates S, and Hobbs NT

Subjects

Animals, Bayes Theorem, District of Columbia, Markov Chains, Population Dynamics, Population Growth, Risk Assessment, Contraception methods, Deer growth & development, Population Control methods

Abstract

Overabundant populations of ungulates have caused environmental degradation and loss of biological diversity in ecosystems throughout the world. Culling or regulated harvest is often used to control overabundant species. These methods are difficult to implement in national parks, other types of conservation reserves, or in residential areas where public hunting may be forbidden by policy. As a result, fertility control has been recommended as a non-lethal alternative for regulating ungulate populations. We evaluate this alternative using white-tailed deer in national parks in the vicinity of Washington, D.C., USA as a model system. Managers seek to reduce densities of white-tailed deer from the current average (50 deer per km2) to decrease harm to native plant communities caused by deer. We present a Bayesian hierarchical model using 13 years of population estimates from 8 national parks in the National Capital Region Network. We offer a novel way to evaluate management actions relative to goals using short term forecasts. Our approach confirms past analyses that fertility control is incapable of rapidly reducing deer abundance. Fertility control can be combined with culling to maintain a population below carrying capacity with a high probability of success. This gives managers confronted with problematic overabundance a framework for implementing management actions with a realistic assessment of uncertainty.

Published

2015

38. [Research progress on molecular genetics of forest musk deer].

Author

Jie H, Zheng CL, Wang JM, Feng XL, Zeng DJ, and Zhao GJ

Subjects

Animals, Breeding, Deer classification, Deer growth & development, Deer metabolism, Ecosystem, Fatty Acids, Monounsaturated chemistry, Fatty Acids, Monounsaturated metabolism, Female, Male, Deer genetics

Abstract

Forest musk deer is one of the large-scale farming musk deer animals with the largest population at the same time. The male musk deer can secrete valuable medicines, which has high medicinal and economic value. Due to the loss of habitat and indiscriminate hunting, the numbers of wild population specie and the distribution have been drastically reduced. Therefore, in-depth understanding of the molecular genetics progress of forest musk deer will pave a way for musk deer protection and breeding. In this review, the progress associated with the molecular marker, genetic classification, artificial breeding, musk secretion and disease in past decades were reviewed, in order to provide a theoretical basis for subsequent molecular genetic researches in forest musk deer.

Published

2015

39. Disentangling direct and growth-mediated influences on early survival: a mechanistic approach.

Author

Plard F, Yoccoz NG, Bonenfant C, Klein F, Warnant C, and Gaillard JM

Subjects

Animals, Deer growth & development, Female, Food Chain, France, Male, Population Dynamics, Seasons, Deer physiology, Longevity

Abstract

1. Early survival is a key life-history trait that often accounts for a large part of the variation in individual fitness and shapes population dynamics. The factors influencing early survival are multiple in large herbivores, including malnutrition, predation, cohort variation or maternal effects. However, the mechanistic pathways connecting these drivers to variation in early survival are much less studied. Indeed, whether these factors influence early survival directly or indirectly through early growth remains to be disentangled. 2. In this study, we used a path analysis to separate the direct and indirect (i.e. mediated by early growth) pathways through which sex, birth date, cohort and family effects influence early survival. We used a large data set of marked roe deer newborns collected from 1985 to 2010 in the intensively monitored population of Trois Fontaines (France). 3. We found that most drivers have indirect influences on early survival through early growth. Indeed, cohort effects influenced early survival through the indirect effect of precipitation around birth on early growth. Precipitation also had direct effects on early survival. Family effects indirectly influenced early survival. Twins from the same litter grew at about the same rate, so they had the same fate. Moreover, some factors, such as birth date, had both direct and indirect effects on roe deer early survival, with fawns born early in the season benefiting from high early survival both because they have more time to grow before the harsh season and because they grow faster during their first days of life than late-born fawns. 4. These findings suggest that most drivers of early survival previously identified in large mammalian herbivores may affect early survival primarily through their influence on early growth. Disentangling the direct and indirect pathways by which different factors influence early survival is of crucial importance to understand the mechanisms shaping this key component of individual fitness., (© 2015 The Authors. Journal of Animal Ecology © 2015 British Ecological Society.)

Published

2015

40. Cope's Rule and the Universal Scaling Law of Ornament Complexity.

Author

Raia P, Passaro F, Carotenuto F, Maiorino L, Piras P, Teresi L, Meiri S, Itescu Y, Novosolov M, Baiano MA, Martínez R, and Fortelius M

Subjects

Animals, Body Size, Cephalopoda anatomy & histology, Cephalopoda growth & development, Deer anatomy & histology, Deer growth & development, Dinosaurs anatomy & histology, Dinosaurs growth & development, Fossils, Fractals, Phylogeny, Biological Evolution, Selection, Genetic, Sex Characteristics

Abstract

Luxuriant, bushy antlers, bizarre crests, and huge, twisting horns and tusks are conventionally understood as products of sexual selection. This view stems from both direct observation and from the empirical finding that the size of these structures grows faster than body size (i.e., ornament size shows positive allometry). We contend that the familiar evolutionary increase in the complexity of ornaments over time in many animal clades is decoupled from ornament size evolution. Increased body size comes with extended growth. Since growth scales to the quarter power of body size, we predicted that ornament complexity should scale according to the quarter power law as well, irrespective of the role of sexual selection in the evolution and function of the ornament. To test this hypothesis, we selected three clades (ammonites, deer, and ceratopsian dinosaurs) whose species bore ornaments that differ in terms of the importance of sexual selection to their evolution. We found that the exponent of the regression of ornament complexity to body size is the same for the three groups and is statistically indistinguishable from 0.25. We suggest that the evolution of ornament complexity is a by-product of Cope's rule. We argue that although sexual selection may control size in most ornaments, it does not influence their shape.

Published

2015

41. Manganese Supplementation in Deer under Balanced Diet Increases Impact Energy and Contents in Minerals of Antler Bone Tissue.

Author

Cappelli J, Garcia A, Ceacero F, Gomez S, Luna S, Gallego L, Gambin P, and Landete-Castillejos T

Subjects

Animals, Antlers ultrastructure, Biomechanical Phenomena, Deer anatomy & histology, Diet, Linear Models, Minerals metabolism, Antlers chemistry, Deer growth & development, Dietary Supplements analysis, Manganese administration & dosage

Abstract

Bone ash, collagen, Ca and P composition, are considered the main factors affecting mechanical properties in bones. However, a series of studies in bone and antler have shown that some trace minerals, such as manganese, may play a role whose importance exceeds what may be expected considering their low content. A previous study showed that a reduction in manganese in antlers during a year of late winter frosts led to generalized antler breakage in Spain, which included a reduction of 30% of cortical thickness, 27% reduction in impact energy, and 10% reduction in work to peak force. Starting for this observation, we experimentally studied the effects of manganese supplementation in adults and yearling (yearlings) red deer under a balanced diet. Subjects were 29 deer of different age classes (adult n = 19, yearlings n = 10) that were divided in a manganese injected group (n = 14) and a control group (n = 15). Antler content in ashes and minerals, intrinsic mechanical properties and cross section structure were examined at 4 points along the antler beam. A one way ANOVA (mean per antler) showed that in yearlings, manganese supplementation only increased its content and that of Fe. However, in adults, Mn supplementation increased the mean content per antler of Ca, Na, P, B, Co, Cu, K, Mn, Ni, Se (while Si content was reduced), and impact work but not Young's modulus of elasticity, bending strength or work to peak force. A GLM series on characteristics in the uppermost part examined in the antler, often showing physiological exhaustion and depletion of body stores, showed also a 16% increase in work to peak force in the antlers of the treated group. Thus, manganese supplementation altered mineral composition of antler and improved structure and some mechanical properties despite animals having a balanced diet.

Published

2015

42. [Morphometry in Development of Red Deer's Adrenal Glands].

Author

Ovcharenko ND, Gribanova OG, and Bondyreva LA

Subjects

Animals, Animals, Newborn, Cell Differentiation physiology, Male, Adrenal Glands cytology, Adrenal Glands embryology, Adrenal Glands growth & development, Aging physiology, Deer embryology, Deer growth & development, Embryonic Development physiology, Fetal Development physiology, Organogenesis physiology

Abstract

Histological structures and morphometric and some histochemical indicators of elk's adrenal gland development as subspecies of red deer in prenatal and postnatal ontogenies stages was studied. It was found that the growth of the fetus adrenal glands weight and the thickness of the structures adrenal glands fragments continue throughout the prenatal period of ontogeny. The cells of androgenic zone with single wandering sympathogoniae are differentiated in the adrenal glands in the second month of development. The androgenic and definite zone and the adrenal medulla are differentiated by the third month of development. At the 4 months, adrenal gland cortex zona glomerulosa and zona fasciculate-reticularis are differentiated; zona reticularis is differentiated only by the seventh month. By the eighth month, the structure of adrenal glands corresponds to the adrenal glands of a newborn. Full structural formation of the adrenal glands takes place in young animals by age 1.5. Obvious structural changes were not found late in the postnatal stages of development.

Published

2015

43. Flashy tail, bony antlers.

Author

Harrington M

Subjects

Animals, Antlers anatomy & histology, Antlers growth & development, Deer anatomy & histology, Deer growth & development, Humans, Lyme Disease epidemiology, Lyme Disease microbiology, Models, Animal, Signal Transduction, Wasting Disease, Chronic etiology, Wasting Disease, Chronic transmission, Antlers physiology, Deer physiology, Regeneration

Published

2015

44. High juvenile mortality is associated with sex-specific adult survival and lifespan in wild roe deer.

Author

Garratt M, Lemaître JF, Douhard M, Bonenfant C, Capron G, Warnant C, Klein F, Brooks RC, and Gaillard JM

Subjects

Aging physiology, Animals, Deer growth & development, Environment, Female, France, Linear Models, Male, Phenotype, Reproduction physiology, Sex Characteristics, Deer physiology, Longevity physiology

Abstract

Male mammals typically have shorter lifespans than females [1]. Sex differences in survival may result, in part, from sex-specific optima in investment in reproduction, with higher male mortality rates from sexual competition selecting for a "live-fast die-young" strategy in this sex [2]. In the wild, lifespan is also influenced by environmental conditions experienced early in life. Poor conditions elevate juvenile mortality, which may selectively remove individuals with a particular phenotype or genotype from a cohort [3], and can alter the subsequent phenotypic condition and fate of those that survive to adulthood [4]. Males and females can respond differently to the same early-life environmental experiences [5, 6], but whether such environmental pressures generate sex differences in lifespan has rarely been considered. We show that sex differences in adult survival and lifespan in cohorts of roe deer (Capreolus capreolus) range from virtually absent in some years to females living 30% longer than males in others. The extent of this sex difference in adult longevity is strongly linked to the level of mortality each cohort experiences as juveniles, with high juvenile mortality generating a strong sex difference in both adult survival and lifespan. In females, high juvenile mortality leads to increased adult survival for those remaining individuals, whereas in males survival is actually reduced. Early environmental conditions and the selective pressures they impose may help to explain variability in sex-specific aging across animal taxa., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

45. The effects of population density on juvenile growth rate in white-tailed deer.

Author

Barr B and Wolverton S

Subjects

Animals, Ecosystem, Food, Population Density, Texas, Body Size, Deer growth & development, Models, Theoretical

Abstract

Animal body size is driven by habitat quality, food availability, and nutrition. Adult size can relate to birth weight, to length of the ontogenetic growth period, and/or to the rate of growth. Data requirements are high for studying these growth mechanisms, but large datasets exist for some game species. In North America, large harvest datasets exist for white-tailed deer (Odocoileus virginianus), but such data are collected under a variety of conditions and are generally dismissed for ecological research beyond local population and habitat management. We contend that such data are useful for studying the ecology of white-tailed deer growth and body size when analyzed at ordinal scale. In this paper, we test the response of growth rate to food availability by fitting a logarithmic equation that estimates growth rate only to harvest data from Fort Hood, Texas, and track changes in growth rate over time. Results of this ordinal scale model are compared to previously published models that include additional parameters, such as birth weight and adult weight. It is shown that body size responds to food availability by variation in growth rate. Models that estimate multiple parameters may not work with harvest data because they are prone to error, which renders estimates from complex models too variable to detect interannual changes in growth rate that this ordinal scale model captures. This model can be applied to harvest data, from which inferences about factors that influence animal growth and body size (e.g., habitat quality and nutritional availability) can be drawn.

Published

2014

46. Re-evaluating neonatal-age models for ungulates: does model choice affect survival estimates?

Author

Grovenburg TW, Monteith KL, Jacques CN, Klaver RW, DePerno CS, Brinkman TJ, Monteith KB, Gilbert SL, Smith JB, Bleich VC, Swanson CC, and Jenks JA

Subjects

Animals, Animals, Newborn, Female, Geography, Survival Analysis, United States, Aging physiology, Choice Behavior, Deer growth & development, Models, Biological

Abstract

New-hoof growth is regarded as the most reliable metric for predicting age of newborn ungulates, but variation in estimated age among hoof-growth equations that have been developed may affect estimates of survival in staggered-entry models. We used known-age newborns to evaluate variation in age estimates among existing hoof-growth equations and to determine the consequences of that variation on survival estimates. During 2001-2009, we captured and radiocollared 174 newborn (≤24-hrs old) ungulates: 76 white-tailed deer (Odocoileus virginianus) in Minnesota and South Dakota, 61 mule deer (O. hemionus) in California, and 37 pronghorn (Antilocapra americana) in South Dakota. Estimated age of known-age newborns differed among hoof-growth models and varied by >15 days for white-tailed deer, >20 days for mule deer, and >10 days for pronghorn. Accuracy (i.e., the proportion of neonates assigned to the correct age) in aging newborns using published equations ranged from 0.0% to 39.4% in white-tailed deer, 0.0% to 3.3% in mule deer, and was 0.0% for pronghorns. Results of survival modeling indicated that variability in estimates of age-at-capture affected short-term estimates of survival (i.e., 30 days) for white-tailed deer and mule deer, and survival estimates over a longer time frame (i.e., 120 days) for mule deer. Conversely, survival estimates for pronghorn were not affected by estimates of age. Our analyses indicate that modeling survival in daily intervals is too fine a temporal scale when age-at-capture is unknown given the potential inaccuracies among equations used to estimate age of neonates. Instead, weekly survival intervals are more appropriate because most models accurately predicted ages within 1 week of the known age. Variation among results of neonatal-age models on short- and long-term estimates of survival for known-age young emphasizes the importance of selecting an appropriate hoof-growth equation and appropriately defining intervals (i.e., weekly versus daily) for estimating survival.

Published

2014

47. Observations on the phenotypic relationships between anti-CarLA salivary IgA antibody response, nematode infection levels and growth rates in farmed red (Cervus elaphus) and wapiti hybrid deer (Cervus elaphus canadensis).

Author

Mackintosh CG, Johnstone P, and Shaw RJ

Subjects

Abomasum parasitology, Animals, Feces parasitology, Nematoda immunology, Nematode Infections diagnosis, Nematode Infections immunology, Parasite Egg Count, Parasite Load, Phenotype, Saliva immunology, Seasons, Antibodies, Helminth analysis, Deer growth & development, Deer parasitology, Immunoglobulin A analysis, Nematode Infections veterinary, Weight Gain

Abstract

Nematode parasites are one of the most significant production limiting factors in farmed deer in New Zealand. One long term strategy to reduce reliance on anthelmintics is to select deer that develop resistance to parasites. It has been shown in sheep that secretory antibody (IgA) in the saliva against a Carbohydrate Larval Antigen (CarLA) on infective larvae (L3) of a wide range of gastro-intestinal nematodes protects against reinfection. This paper describes a longitudinal slaughter study undertaken to measure anti-CarLA IgA antibody (CarLA-IgA) levels in the saliva of 5-12 month old farmed red and wapiti-cross-red deer (wapx) grazed together and to attempt to relate these levels to parasite burdens and productivity. The study showed that salivary CarLA-IgA levels peaked in June (late autumn) and October (mid spring), but the levels in wapx deer were significantly lower than in red deer. Over the May-December period 55% of red deer had CarLA-IgA values ≥2 units compared with 26% of wapx deer and over this period red deer had consistently lower adult abomasal parasite burdens than wapx deer. The average number of adult abomasal nematodes was significantly lower at each slaughter from May to December for all deer with CarLA-IgA ≥2 units vs <2 units. There were no demonstrable correlations with liveweight gain in these small groups of deer., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

48. Polysialylation of NCAM correlates with onset and termination of seasonal spermatogenesis in roe deer.

Author

Hänsch M, Simon P, Schön J, Kaese M, Braun BC, Jewgenow K, Göritz F, Küpper J, Ahmadvand N, Geyer R, Middendorff R, Müller K, and Galuska SP

Subjects

Animals, Deer metabolism, Male, Neural Cell Adhesion Molecules metabolism, Reproduction genetics, Seasons, Sertoli Cells metabolism, Spermatogenesis genetics, Spermatogonia metabolism, Testis growth & development, Cell Adhesion, Deer growth & development, Sialic Acids metabolism, Testis metabolism

Abstract

Roe deer (Capreolus capreolus) are seasonal breeders and cyclic structural changes of roe bucks' testis come along with a totally arrested (winter) and a highly activated spermatogenesis (summer). For this reason, roe buck represents an interesting model to study general mechanisms of initiation and termination of spermatogenesis. We investigated if polysialic acid (polySia)-a linear homopolymer of α2,8-linked sialic acids, which could act as a negative regulator of cell-cell adhesion-might be involved in the activation and/or inactivation of spermatogenesis. To address this point, testis samples of adult male roe deer were collected at different time point of the year. Intriguingly, we observed that polySia attached to the neural cell adhesion molecule was enhanced during the onset of spermatogenesis in April. In addition, polySia was highly expressed in December. Predominantly, polySia was detectable between Sertoli cells and spermatogonia in the basal regions of testicular tubules and in the adluminal part of Sertoli cells. Interestingly, similar polySia distributions were observed during early testis development of other mammalians when gonocytes (pre-spermatogonia) and Sertoli cells represent the only cell populations in tubuli seminiferi. Thus, polySia is expressed during key steps of the "on/off mechanisms" of spermatogenesis and might represent one mediator of the interaction and communication between Sertoli cells and germ cell precursors.

Published

2014

49. Invasion rate of deer ked depends on spatiotemporal variation in host density.

Author

Meier CM, Bonte D, Kaitala A, and Ovaskainen O

Subjects

Animals, Bayes Theorem, Deer growth & development, Finland, Models, Biological, Population Density, Spatial Analysis, Time Factors, Animal Distribution, Deer parasitology, Deer physiology, Diptera physiology

Abstract

Invasive parasites are of great global concern. Understanding the factors influencing the spread of invading pest species is a first step in developing effective countermeasures. Growing empirical evidence suggests that spread rates are essentially influenced by spatiotemporal dynamics of host-parasite interactions, yet approaches modelling spread rate have typically assumed static environmental conditions. We analysed invasion history of the deer ked (Lipoptena cervi) in Finland with a diffusion-reaction model, which assumed either the movement rate, the population growth rate, or both rates may depend on spatial and temporal distribution of moose (Alces alces), the main host of deer ked. We fitted the model to the data in a Bayesian framework, and used the Bayesian information criterion to show that accounting for the variation in local moose density improved the model's ability to describe the pattern of the invasion. The highest ranked model predicted higher movement rate and growth rate of deer ked with increasing moose density. Our results suggest that the historic increase in host density has facilitated the spread of the deer ked. Our approach illustrates how information about the ecology of an invasive species can be extracted from the spatial pattern of spread even with rather limited data.

Published

2014

50. Fitness consequences of environmental conditions at different life stages in a long-lived vertebrate.

Author

Douhard M, Plard F, Gaillard JM, Capron G, Delorme D, Klein F, Duncan P, Loe LE, and Bonenfant C

Subjects

Adaptation, Biological, Animals, Deer genetics, Deer growth & development, Female, France, Seasons, Deer physiology, Environment, Genetic Fitness

Abstract

The predictive adaptive response (PAR) hypothesis proposes that animals adjust their physiology and developmental trajectory during early life in anticipation of their future environments. Accordingly, when environmental conditions in early life match environmental conditions during adulthood, individual fitness should be greater. Here, we test this hypothesis in a long-lived mammal, the roe deer, using data from two contrasting populations, intensively monitored for more than 35 years. In the highly productive site, the fitness of female roe deer increased with the quality of environment during adulthood and, contrary to predictions of PAR, individuals born in good conditions always outperformed those born under poor conditions. In the resource-limited site, the fitness of female roe deer born in poor years was better than those born in good conditions in poor years when the animals were adult, but not in good years. Although consistent with predictions of PAR, we showed that this pattern is likely to be a consequence of increased viability selection during the juvenile stage for animals born in poor years. While PARs are often advanced in evolutionary medicine, our findings suggest that detailed biological processes should be investigated before drawing conclusions about the existence of this phenomenon.

Published

2014