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利用低成本成像设备和机器学习对鸡胚进行基于形态学的胚胎期性别鉴定

Morphology-Based In-Ovo Sexing of Chick Embryos Utilizing a Low-Cost Imaging Apparatus and Machine Learning.

作者信息

Zhang Daniel, Jacobs Leonie

机构信息

Maggie L. Walker Governor's School, Richmond, VA 23220, USA.

School of Animal Sciences, Virginia Tech, Blacksburg, VA 24061, USA.

出版信息

Animals (Basel). 2025 Jan 29;15(3):384. doi: 10.3390/ani15030384.

Abstract

The routine culling of male chicks in the laying hen industry raises significant ethical, animal welfare, and sustainability concerns. Current methods to determine chick embryo sex before hatching are costly, time-consuming, and invasive. This study aimed to develop a low-cost, non-invasive solution to predict chick embryo sex before hatching using the morphological features of eggs. A custom imaging apparatus was created using a smartphone and light box, enabling consistent image capture of chicken eggs. Egg length, width, area, eccentricity, and extent were measured, and machine learning models were trained to predict chick embryo sex. The wide neural network model achieved the highest accuracy of 88.9% with a mean accuracy of 81.5%. Comparison of the imaging apparatus to a high-cost industrial 3D scanner demonstrated comparable accuracy in capturing egg morphology. The findings suggest that this method can contribute to the prevention of up to 6.2 billion male chicks from being culled annually by destroying male embryos before they develop the capacity to feel pain. This approach offers a feasible, ethical, and scalable alternative to current practices, with potential for further improvements in accuracy and adaptability to different industry settings.

摘要

蛋鸡养殖业中对雄性雏鸡的常规淘汰引发了重大的伦理、动物福利和可持续性问题。目前在孵化前确定雏鸡胚胎性别的方法成本高、耗时且具有侵入性。本研究旨在开发一种低成本、非侵入性的解决方案,利用鸡蛋的形态特征在孵化前预测雏鸡胚胎性别。使用智能手机和灯箱创建了一个定制成像设备,能够对鸡蛋进行一致的图像采集。测量了蛋的长度、宽度、面积、偏心率和范围,并训练机器学习模型来预测雏鸡胚胎性别。宽神经网络模型的最高准确率达到88.9%,平均准确率为81.5%。将该成像设备与高成本的工业3D扫描仪进行比较,结果表明在捕捉蛋的形态方面具有相当的准确性。研究结果表明,这种方法有助于每年防止多达62亿只雄性雏鸡被淘汰,即在雄性胚胎发育出疼痛感知能力之前将其销毁。这种方法为当前做法提供了一种可行、符合伦理且可扩展的替代方案,在准确性和对不同行业环境的适应性方面具有进一步改进的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c2ec/11816025/8374fc9e950e/animals-15-00384-g0A1.jpg

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