Abstract
This study used Nelore embryo donors to evaluate the effects of summer temperatures and humidity in a tropical area on embryo recovery. Seventeen cows were randomly assigned to three groups (G1, G2 and G3) as well as 28 heifers into four groups (G4, G5, G6 and G7), and underwent a consecutive 4 d superovulation protocol (Day 0 to 3) and two artificial inseminations (AI; Day 4 and 5). Cortisol concentrations were determined on Day 0, 4 and 5. Temperature and humidity index (THI) was recorded from Days 0 to 7. Embryos were recovered on Day 11, and evaluated for quality and quantity. Heifers experienced higher thermal load than cows, however, there was no difference in the cortisol and reproductive parameters measured between both. The THI measured throughout the experiment oscillated between 65.8 and 85.2 (76.1 ± 3.9), which is a dangerous range for thermal comfort, especially above 78. Animals from G5 were subjected to high THI throughout the experimental protocol, approaching a dangerous condition (78.7 ± 0.9) on Day 4 (first AI). The THI for G2 cattle was also high, as in the other groups, but increased to over 80 two days after AI. Animals from group G5 had the lowest viable production being 2.4 ± 0.9 embryos (38% of viability), followed by cattle from group G2 (3.0 ± 0.9 viable, P<0.05). Thus, high thermal load in the summer expressed by high THI, on the day and post- insemination days (during embryo cleavage), compromises embryo numbers, viability and consequently reproductive performance of Nelore females.
Highlights
World cattle population is estimated to be 1.4 billion heads, 65 percent of which are located in tropical areas (FAO, 2008)
Sixty-four percent of the Brazilian cattle population is composed by Nelore breed (ACNB, 2007), a number that ranks higher than total cattle herd in China
Any findings in the present study are likely applicable to zebu cattle reared in other tropical areas
Summary
World cattle population is estimated to be 1.4 billion heads, 65 percent of which are located in tropical areas (FAO, 2008). The Brazilian cattle herd in 2007 totaled 199.8 million head, remaining as the second largest in the world. Sixty-four percent of the Brazilian cattle population is composed by Nelore breed (ACNB, 2007), a number that ranks higher than total cattle herd in China. Nelore cattle are a suitable model to study because they are often exposed to high thermal loads during tropical summer, a situation that may compromise cattle reproduction, including embryo development. In contrast to the synthetic Brahman breed, the Nelore is a distinct zebu breed. Any findings in the present study are likely applicable to zebu cattle reared in other tropical areas
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