Brain development, song learning and mate choice in birds: a review and experimental test of the "nutritional stress hypothesis"

The nutritional stress hypothesis explains how learned features of song, such as complexity and local dialect structure, can serve as indicators of male quality of interest to females in mate choice. The link between song and quality comes about because the brain structures underlying song learning...

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Veröffentlicht in:	Journal of Comparative Physiology 2002-12, Vol.188 (11-12), p.1003-1014
Hauptverfasser:	Nowicki, S, Searcy, W A, Peters, S
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Sprache:	eng
Schlagworte:	Age Factors Animals Biological Evolution Birds Birds - growth & development Birds - physiology Body Weight Brain Brain - growth & development Brain - physiology Choice learning Feathers - growth & development Female Females Hatching Hypotheses Indicators Learning Learning - physiology Male Mate selection Nutrient deficiency Nutrition Nutritional Physiological Phenomena Prosencephalon - growth & development Prosencephalon - physiology Sex Song Songbirds Sound Spectrography Statistics, Nonparametric Stress Stress, Physiological - physiology Stresses Telencephalon - growth & development Telencephalon - physiology Vocalization, Animal Voice - physiology
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container_title	Journal of Comparative Physiology
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creator	Nowicki, S Searcy, W A Peters, S
description	The nutritional stress hypothesis explains how learned features of song, such as complexity and local dialect structure, can serve as indicators of male quality of interest to females in mate choice. The link between song and quality comes about because the brain structures underlying song learning largely develop during the first few months post-hatching. During this same period, songbirds are likely to be subject to nutritional and other stresses. Only individuals faring well in the face of stress are able to invest the resources in brain development necessary to optimize song learning. Learned features of song thus become reliable indicators of male quality, with reliability maintained by the developmental costs of song. We review the background and assumptions of the nutritional stress hypothesis, and present new experimental data demonstrating an effect of nestling nutrition on nestling growth, brain development, and song learning, providing support for a key prediction of the hypothesis.
doi_str_mv	10.1007/s00359-002-0361-3
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The link between song and quality comes about because the brain structures underlying song learning largely develop during the first few months post-hatching. During this same period, songbirds are likely to be subject to nutritional and other stresses. Only individuals faring well in the face of stress are able to invest the resources in brain development necessary to optimize song learning. Learned features of song thus become reliable indicators of male quality, with reliability maintained by the developmental costs of song. We review the background and assumptions of the nutritional stress hypothesis, and present new experimental data demonstrating an effect of nestling nutrition on nestling growth, brain development, and song learning, providing support for a key prediction of the hypothesis.</abstract><cop>Germany</cop><pub>Springer Nature B.V</pub><pmid>12471497</pmid><doi>10.1007/s00359-002-0361-3</doi><tpages>12</tpages></addata></record>
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subjects	Age Factors Animals Biological Evolution Birds Birds - growth & development Birds - physiology Body Weight Brain Brain - growth & development Brain - physiology Choice learning Feathers - growth & development Female Females Hatching Hypotheses Indicators Learning Learning - physiology Male Mate selection Nutrient deficiency Nutrition Nutritional Physiological Phenomena Prosencephalon - growth & development Prosencephalon - physiology Sex Song Songbirds Sound Spectrography Statistics, Nonparametric Stress Stress, Physiological - physiology Stresses Telencephalon - growth & development Telencephalon - physiology Vocalization, Animal Voice - physiology
title	Brain development, song learning and mate choice in birds: a review and experimental test of the "nutritional stress hypothesis"
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