Inclusion of bioclimatic variables in genetic evaluations of dairy cattle.

OBJECTIVE: Considering the importance of dairy farming and the negative effects of heat stress, more tolerant genotypes need to be identified. The objective of this study was to investigate the effect of heat stress via temperature-humidity index (THI) and diurnal temperature variation (DTV) in the genetic evaluations for daily milk yield of Holstein dairy cattle, using random regression models. METHODS: The data comprised 94,549 test-day records of 11,294 first parity Holstein cows from Brazil, collected from 1997 to 2013, and bioclimatic data (THI and DTV) from 18 weather stations. Least square linear regression models were used to determine the THI and DTV thresholds for milk yield losses caused by heat stress. In addition to the standard model (SM, without bioclimatic variables), THI and DTV were combined in various ways and tested for different days, totaling 41 models. RESULTS: The THI and DTV thresholds for milk yield losses was THI = 74 (-0.106 kg/d/THI) and DTV = 13 (-0.045 kg/d/DTV). The model that included THI and DTV as fixed effects, considering the two-day average, presented better fit (-2logL, Akaike information criterion, and Bayesian information criterion). The estimated breeding values (EBVs) and the reliabilities of the EBVs improved when using this model. CONCLUSION: Sires are re-ranking when heat stress indicators are included in the model. Genetic evaluation using the mean of two days of THI and DTV as fixed effect, improved EBVs and EBVs reliability.

Heart rate responses to different temperatures in juvenile Poppiana dentata ( ) / Respostas de frequência cardíaca do Poppiana dentata jovem a diferentes temperaturas ( )

Abstract Temperature is one of the main factors that influences cardiovascular functioning in ectotherms. Hence this study sought to investigate heart rate responses of a freshwater crab species, Poppiana dentata, to different temperature exposures since the species generally reside in habitats of fluctuating physicochemistry. Heart rates were non-invasively determined in juvenile crabs for three temperature regimes, each over an 8-day session; A: temperature exposures of 26 °C (2 days) to 30 °C (3 days) to 26 °C (3 days), B: 26 °C (2 days) to 32 °C (3 days) to 26 °C (3 days) and C: a control at constant 26 °C. Heart rate variations were significant among the regimes (P < 0.05), with the median heart rate being highest for regime B (74 beats per minute or bpm) during the temperature insult (32 °C), relative to regime A (70 bpm) and the control (64 bpm). Notably, a suppression and inversion of the diurnal cardiac patterns occurred for regimes' A and B crabs respectively, with rates from the highest temperature insult not shifting back to pre-insult levels during recovery (26 °C). It is plausible that P. dentata may have compensatory cardiovascular mechanisms that account for these differential heart rate responses, possibly conveying adaptive strategies in its dynamic habitat conditions.

Resumo A temperatura é um dos principais fatores que influenciam o funcionamento cardiovascular dos animais ectotérmicos. Sendo assim, este estudo buscou investigar as respostas de frequência cardíaca de uma espécie de caranguejo de água doce, o Poppiana dentata, após exposição a temperaturas diferentes, visto que esta espécie geralmente reside em habitats de composição físico-química variável. As frequências cardíacas foram determinadas de maneira não invasiva em caranguejos jovens submetidos a três regimes de temperatura, cada um ao longo de uma sessão de oito dias de duração; A: exposição a 26oC (dois dias) para 30 °C (três dias) para 26 °C (dois dias), B: 26 °C (dois dias) para 32 °C (três dias) para 26 °C (três dias) e C: um controle a temperatura constante de 26 °C. As variações de frequência cardíaca foram significativas entre os regimes (P < 0,05), sendo que a frequência cardíaca mediana foi mais alta para o regime B (74 batimentos por minuto ou bpm) durante o insulto térmico (32 °C), em relação ao regime A (70 bpm) e ao controle (64 bpm). Observou-se particularmente uma supressão e uma inversão dos padrões cardíacos diurnos nos caranguejos dos regimes A e B, respectivamente, sem que as frequências do insulto térmico mais alto voltassem aos níveis anteriores ao insulto térmico durante a recuperação (26 °C). É possível que o P. dentata possua mecanismos cardiovasculares compensatórios responsáveis por essas respostas de frequências cardíacas variadas, o que pode indicar estratégias de adaptação às suas condições de habitat dinâmicas.

Heart rate responses to different temperatures in juvenile Poppiana dentata ( ) / Respostas de frequência cardíaca do Poppiana dentata jovem a diferentes temperaturas ( )

Temperature is one of the main factors that influences cardiovascular functioning in ectotherms. Hence this study sought to investigate heart rate responses of a freshwater crab species, Poppiana dentata, to different temperature exposures since the species generally reside in habitats of fluctuating physicochemistry. Heart rates were non-invasively determined in juvenile crabs for three temperature regimes, each over an 8-day session; A: temperature exposures of 26 °C (2 days) to 30 °C (3 days) to 26 °C (3 days), B: 26 °C (2 days) to 32 °C (3 days) to 26 °C (3 days) and C: a control at constant 26 °C. Heart rate variations were significant among the regimes (P < 0.05), with the median heart rate being highest for regime B (74 beats per minute or bpm) during the temperature insult (32 °C), relative to regime A (70 bpm) and the control (64 bpm). Notably, a suppression and inversion of the diurnal cardiac patterns occurred for regimes' A and B crabs respectively, with rates from the highest temperature insult not shifting back to pre-insult levels during recovery (26 °C). It is plausible that P. dentata may have compensatory cardiovascular mechanisms that account for these differential heart rate responses, possibly conveying adaptive strategies in its dynamic habitat conditions.(AU)

A temperatura é um dos principais fatores que influenciam o funcionamento cardiovascular dos animais ectotérmicos. Sendo assim, este estudo buscou investigar as respostas de frequência cardíaca de uma espécie de caranguejo de água doce, o Poppiana dentata, após exposição a temperaturas diferentes, visto que esta espécie geralmente reside em habitats de composição físico-química variável. As frequências cardíacas foram determinadas de maneira não invasiva em caranguejos jovens submetidos a três regimes de temperatura, cada um ao longo de uma sessão de oito dias de duração; A: exposição a 26oC (dois dias) para 30 °C (três dias) para 26 °C (dois dias), B: 26 °C (dois dias) para 32 °C (três dias) para 26 °C (três dias) e C: um controle a temperatura constante de 26 °C. As variações de frequência cardíaca foram significativas entre os regimes (P < 0,05), sendo que a frequência cardíaca mediana foi mais alta para o regime B (74 batimentos por minuto ou bpm) durante o insulto térmico (32 °C), em relação ao regime A (70 bpm) e ao controle (64 bpm). Observou-se particularmente uma supressão e uma inversão dos padrões cardíacos diurnos nos caranguejos dos regimes A e B, respectivamente, sem que as frequências do insulto térmico mais alto voltassem aos níveis anteriores ao insulto térmico durante a recuperação (26 °C). É possível que o P. dentata possua mecanismos cardiovasculares compensatórios responsáveis por essas respostas de frequências cardíacas variadas, o que pode indicar estratégias de adaptação às suas condições de habitat dinâmicas.(AU)

Heart rate responses to different temperatures in juvenile Poppiana dentata ( )

Abstract Temperature is one of the main factors that influences cardiovascular functioning in ectotherms. Hence this study sought to investigate heart rate responses of a freshwater crab species, Poppiana dentata, to different temperature exposures since the species generally reside in habitats of fluctuating physicochemistry. Heart rates were non-invasively determined in juvenile crabs for three temperature regimes, each over an 8-day session; A: temperature exposures of 26 °C (2 days) to 30 °C (3 days) to 26 °C (3 days), B: 26 °C (2 days) to 32 °C (3 days) to 26 °C (3 days) and C: a control at constant 26 °C. Heart rate variations were significant among the regimes (P 0.05), with the median heart rate being highest for regime B (74 beats per minute or bpm) during the temperature insult (32 °C), relative to regime A (70 bpm) and the control (64 bpm). Notably, a suppression and inversion of the diurnal cardiac patterns occurred for regimes A and B crabs respectively, with rates from the highest temperature insult not shifting back to pre-insult levels during recovery (26 °C). It is plausible that P. dentata may have compensatory cardiovascular mechanisms that account for these differential heart rate responses, possibly conveying adaptive strategies in its dynamic habitat conditions.

Resumo A temperatura é um dos principais fatores que influenciam o funcionamento cardiovascular dos animais ectotérmicos. Sendo assim, este estudo buscou investigar as respostas de frequência cardíaca de uma espécie de caranguejo de água doce, o Poppiana dentata, após exposição a temperaturas diferentes, visto que esta espécie geralmente reside em habitats de composição físico-química variável. As frequências cardíacas foram determinadas de maneira não invasiva em caranguejos jovens submetidos a três regimes de temperatura, cada um ao longo de uma sessão de oito dias de duração; A: exposição a 26oC (dois dias) para 30 °C (três dias) para 26 °C (dois dias), B: 26 °C (dois dias) para 32 °C (três dias) para 26 °C (três dias) e C: um controle a temperatura constante de 26 °C. As variações de frequência cardíaca foram significativas entre os regimes (P 0,05), sendo que a frequência cardíaca mediana foi mais alta para o regime B (74 batimentos por minuto ou bpm) durante o insulto térmico (32 °C), em relação ao regime A (70 bpm) e ao controle (64 bpm). Observou-se particularmente uma supressão e uma inversão dos padrões cardíacos diurnos nos caranguejos dos regimes A e B, respectivamente, sem que as frequências do insulto térmico mais alto voltassem aos níveis anteriores ao insulto térmico durante a recuperação (26 °C). É possível que o P. dentata possua mecanismos cardiovasculares compensatórios responsáveis por essas respostas de frequências cardíacas variadas, o que pode indicar estratégias de adaptação às suas condições de habitat dinâmicas.

Fifty Years of Mountain Passes: A Perspective on Dan Janzen's Classic Article.

In 1967, Dan Janzen published "Why Mountain Passes Are Higher in the Tropics" in The American Naturalist. Janzen's seminal article has captured the attention of generations of biologists and continues to inspire theoretical and empirical work. The underlying assumptions and derived predictions are broadly synthetic and widely applicable. Consequently, Janzen's "seasonality hypothesis" has proven relevant to physiology, climate change, ecology, and evolution. To celebrate the fiftieth anniversary of this highly influential article, we highlight the past, present, and future of this work and include a unique historical perspective from Janzen himself.

On the Biology of the Colombian Fluted Scale, Crypticerya multicicatrices Kondo & Unruh (Hemiptera: Monophlebidae).

The Colombian fluted scale Crypticerya multicicatrices Kondo & Unruh (Hemiptera: Monophlebidae) is a polyphagous insect pest native to continental Colombia and reported on 148 species, mainly palms (Arecaceae); mango, Mangifera indica (Anacardiaceae); and leguminous trees and shrubs (Fabaceae). The biology and ecological parameters of C. multicicatrices were investigated using as a host plant Caesalpinia pluviosa var. peltophoroides (Fabaceae) under two environmental conditions: semifield (max temp., 31.5 ± 3.0°C; max. RH, 78.9 ± 6.0%) and a glass house (max. temp., 37.1 ± 5.1°C, max. RH, 67.0 ± 6.2%) in the premises of Corpoica, Palmira Research Station. The duration of the different developmental stages was highly different under both temperature conditions. First- and third-instar nymphs, the period of ovisac growth of the adult, and the duration of the life cycle were significantly higher in the semifield conditions compared to the glass house conditions. In contrast, the second-instar nymph stage was shorter in the semifield conditions. The duration of the fourth-instar stage (adult) and the reproductive period were the same in both environments. As for the evaluated ecological parameters, a great difference was found between the two environmental conditions, where the net reproductive rate (R o) and mean generation time (T) were significantly higher in the semifield conditions than in the glass house conditions. The obtained biological and ecological information is an essential tool for finding strategies to control this insect pest. This is the first detailed study on the biology of a species in the genus Crypticerya Cockerell.

Heart rate responses to different temperatures in juvenile Poppiana dentata ( )

Abstract Temperature is one of the main factors that influences cardiovascular functioning in ectotherms. Hence this study sought to investigate heart rate responses of a freshwater crab species, Poppiana dentata, to different temperature exposures since the species generally reside in habitats of fluctuating physicochemistry. Heart rates were non-invasively determined in juvenile crabs for three temperature regimes, each over an 8-day session; A: temperature exposures of 26 °C (2 days) to 30 °C (3 days) to 26 °C (3 days), B: 26 °C (2 days) to 32 °C (3 days) to 26 °C (3 days) and C: a control at constant 26 °C. Heart rate variations were significant among the regimes (P 0.05), with the median heart rate being highest for regime B (74 beats per minute or bpm) during the temperature insult (32 °C), relative to regime A (70 bpm) and the control (64 bpm). Notably, a suppression and inversion of the diurnal cardiac patterns occurred for regimes A and B crabs respectively, with rates from the highest temperature insult not shifting back to pre-insult levels during recovery (26 °C). It is plausible that P. dentata may have compensatory cardiovascular mechanisms that account for these differential heart rate responses, possibly conveying adaptive strategies in its dynamic habitat conditions.

Resumo A temperatura é um dos principais fatores que influenciam o funcionamento cardiovascular dos animais ectotérmicos. Sendo assim, este estudo buscou investigar as respostas de frequência cardíaca de uma espécie de caranguejo de água doce, o Poppiana dentata, após exposição a temperaturas diferentes, visto que esta espécie geralmente reside em habitats de composição físico-química variável. As frequências cardíacas foram determinadas de maneira não invasiva em caranguejos jovens submetidos a três regimes de temperatura, cada um ao longo de uma sessão de oito dias de duração; A: exposição a 26oC (dois dias) para 30 °C (três dias) para 26 °C (dois dias), B: 26 °C (dois dias) para 32 °C (três dias) para 26 °C (três dias) e C: um controle a temperatura constante de 26 °C. As variações de frequência cardíaca foram significativas entre os regimes (P 0,05), sendo que a frequência cardíaca mediana foi mais alta para o regime B (74 batimentos por minuto ou bpm) durante o insulto térmico (32 °C), em relação ao regime A (70 bpm) e ao controle (64 bpm). Observou-se particularmente uma supressão e uma inversão dos padrões cardíacos diurnos nos caranguejos dos regimes A e B, respectivamente, sem que as frequências do insulto térmico mais alto voltassem aos níveis anteriores ao insulto térmico durante a recuperação (26 °C). É possível que o P. dentata possua mecanismos cardiovasculares compensatórios responsáveis por essas respostas de frequências cardíacas variadas, o que pode indicar estratégias de adaptação às suas condições de habitat dinâmicas.

Thermal tolerance and survival responses to scenarios of experimental climatic change: changing thermal variability reduces the heat and cold tolerance in a fly.

Climate change poses one of the greatest threats to biodiversity. Most analyses of the impacts have focused on changes in mean temperature, but increasing variance will also impact organisms and populations. We assessed the combined effects of the mean and the variance of temperature on thermal tolerances-i.e., critical thermal maxima, critical thermal minima, scope of thermal tolerance, and survival in Drosophila melanogaster. Our six experimental climatic scenarios were: constant mean with zero variance or constant variance or increasing variance; changing mean with zero variance or constant variance or increasing variance. Our key result was that environments with changing thermal variance reduce the scope of thermal tolerance and survival. Heat tolerance seems to be conserved, but cold tolerance decreases significantly with mean low as well as changing environmental temperatures. Flies acclimated to scenarios of changing variance-with either constant or changing mean temperatures-exhibited significantly lower survival rate. Our results imply that changing and constant variances would be just as important in future scenarios of climate change under greenhouse warming as increases in mean annual temperature. To develop more realistic predictions about the biological impacts of climate change, such interactions between the mean and variance of environmental temperature should be considered.

Seasonal Variation on Microbial Community and Methane Production during Anaerobic Digestion of Cattle Manure in Brazil.

Anaerobic digestion is an alternative method for the treatment of animal manure and wastewater. The anaerobic bioconversion of biomass requires a multi-step biological process, including microorganisms with distinct roles. The diversity and composition of microbial structure in pilot-scale anaerobic digestion operating at ambient temperature in Brazil were studied. Influence of the seasonal and temporal patterns on bacterial and archaeal communities were assessed by studying the variations in density, dynamic and diversity and structure. The average daily biogas produced in the summer and winter months was 18.7 and 16 L day(-1), respectively, and there was no difference in the average methane yield. Quantitative PCR analysis revealed that no differences in abundances and dynamics were found for bacterial communities and the total number of Archaea in different seasons. Analysis of bacterial clone libraries revealed a predominance of Firmicutes (54.5 %/summer and 46.7 %/winter) and Bacteroidetes (31.4 %/summer and 44.4 %/winter). Within the Archaea, the phylum Euryarchaeota was predominant in both digesters. Phylogenetic distribution showed changes in percentage between the phyla identified, but no alterations were recorded in the quality and amount of produced methane or community dynamics. The results may suggest that redundancy of microbial groups may have occurred, pointing to a more complex microbial community in the ecosystem related to this ambient temperature system.