A software to estimate heat stress impact on dairy cattle productive performance

Q2 Agricultural and Biological Sciences

Agronomy research Pub Date : 2019-01-01 DOI:10.15159/AR.19.110

C. S. Teles, R. Gates, M. Barbari, L. Conti, G. Rossi, M. O. Vilela, C. F. Souza, I. Tinôco

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引用次数: 3

Abstract

The aim of this study is to develop a computational tool, based on the Temperature and Humidity Index value, to characterize the thermal environment in dairy cattle barns and to evaluate the impact of thermal stress on productive performance. The software for the thermal environment prediction, and determination of the influence of heat stress on dairy cow productivity (Ambi + Leite) was developed using the C# programming language in the Microsoft Visual C# 2010 Express Integrated Development Environment. The following scenario was considered for the program test: air temperature 32°C, relative air humidity 70% and milk production potential in thermoneutrality condition 20 kg cow-1 day-1. The prediction of the thermal environment based on the simulated situations indicates that the animals are submitted to a moderate heat stress condition with THI equal to 82.81. In this condition a decrease of approximately 26% in milk production and a reduction of 4 kg cow-1 day-1 in food intake was calculated. In conclusion, the developed software can be a practical tool to assist the producer in making-decision processes.

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一个估算热应激对奶牛生产性能影响的软件

本研究的目的是开发一种基于温湿度指数值的计算工具来表征奶牛舍内的热环境，并评估热应激对生产性能的影响。在Microsoft Visual c# 2010 Express集成开发环境下，利用c#编程语言开发了热环境预测、热应激对奶牛产量影响测定软件(Ambi + Leite)。程序试验考虑以下情景:空气温度32℃，相对空气湿度70%，热中性条件下产奶量20 kg奶牛1天1。基于模拟情景的热环境预测表明，动物处于中等热应激状态，THI = 82.81。在这种情况下，计算得出产奶量减少约26%，日采食量减少4公斤。总之，所开发的软件可以作为一个实用的工具来帮助生产者进行决策过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Agronomy research Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

7 weeks

期刊介绍： Agronomy Research is a peer-reviewed international Journal intended for publication of broad-spectrum original articles, reviews and short communications on actual problems of modern biosystems engineering including crop and animal science, genetics, economics, farm- and production engineering, environmental aspects, agro-ecology, renewable energy and bioenergy etc. in the temperate regions of the world.