Sonification of Genomic Data to Represent Genetic Load in Zoo Populations.

IF 1.2 4区 生物学 Q3 VETERINARY SCIENCES Zoo Biology Pub Date : 2024-09-04 DOI:10.1002/zoo.21859
Edward J Martin, Samuel A Speak, Lara Urban, Hernán E Morales, Cock van Oosterhout
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Abstract

Maintaining a diverse gene pool is important in the captive management of zoo populations, especially in endangered species such as the pink pigeon (Nesoenas mayeri). However, due to the limited number of breeding individuals and relaxed natural selection, the loss of variation and accumulation of harmful variants is inevitable. Inbreeding results in a loss of fitness (i.e., inbreeding depression), principally because related parents are more likely to transmit a copy of the same recessive deleterious genetic variant to their offspring. Genomics-informed captive breeding can manage harmful variants by artificial selection, reducing the genetic load by avoiding the inheritance of two copies of the same harmful variant. To explain this concept in an interactive way to zoo visitors, we developed a sonification game to represent the fitness impacts of harmful variants by detuning notes in a familiar musical melody (i.e., Beethoven's Für Elise). Conceptually, zoo visitors play a game aiming to create the most optimal pink pigeon offspring in terms of inbreeding depression. They select virtual crosses between pink pigeon individuals and listen for the detuning of the melody, which represents the realised load of the resultant offspring. Here we present the sonification algorithm and the results of an online survey to see whether participants could identify the most and least optimal offspring from three potential pink pigeon offspring. Of our 98 respondents, 85 (86.7%) correctly identified the least optimal offspring, 73 (74.5%) correctly identified the most optimal, and 62 (63.3%) identified both the most and least optimal offspring using only the sonification.

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基因组数据的声学化以表现动物园种群的遗传负荷。
在动物园种群的圈养管理中,保持基因库的多样性非常重要,尤其是对于粉鸽(Nesoenas mayeri)等濒危物种而言。然而,由于繁殖个体数量有限,加上自然选择的放松,变异的损失和有害变异的积累不可避免。近亲繁殖会导致健康损失(即近亲繁殖抑制),这主要是因为亲缘关系更有可能将相同的隐性有害遗传变异传递给后代。以基因组学为依据的人工繁殖可以通过人工选择来管理有害变异,避免遗传两个相同的有害变异,从而减少遗传负荷。为了以互动的方式向动物园游客解释这一概念,我们开发了一个声化游戏,通过对熟悉的音乐旋律(即贝多芬的《Für Elise》)中的音符进行失谐处理,来表现有害变体对健康的影响。从概念上讲,动物园游客玩的游戏旨在创造出近亲繁殖抑郁方面最理想的粉鸽后代。他们选择粉鸽个体之间的虚拟杂交,并聆听旋律的失谐,这代表了所产生的后代的实现负荷。在此,我们介绍了声化算法和在线调查结果,以了解参与者能否从三只潜在的粉红鸽后代中识别出最理想和最不理想的后代。在 98 名受访者中,有 85 人(86.7%)正确识别出了最不理想的后代,73 人(74.5%)正确识别出了最理想的后代,62 人(63.3%)仅通过声化识别出了最理想和最不理想的后代。
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来源期刊
Zoo Biology
Zoo Biology 生物-动物学
CiteScore
2.50
自引率
15.40%
发文量
85
审稿时长
6-12 weeks
期刊介绍: Zoo Biology is concerned with reproduction, demographics, genetics, behavior, medicine, husbandry, nutrition, conservation and all empirical aspects of the exhibition and maintenance of wild animals in wildlife parks, zoos, and aquariums. This diverse journal offers a forum for effectively communicating scientific findings, original ideas, and critical thinking related to the role of wildlife collections and their unique contribution to conservation.
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