Seasonal plasticity of duodenal morphology and histology in Passer montanus

When facing seasonal environmental changes, flying birds and small mammals may develop adaptive gastrointestinal changes to optimize their digestive and absorptive strategies to meet the changing of physiologic needs. As a main component of gastrointestinal tract, small intestine is extraordinarily...

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Bibliographic Details
Published in:Zoomorphology 2014-12, Vol.133 (4), p.435-443
Main Authors: Lv, Jianwei, Xie, Zhenli, Sun, Yirui, Sun, Chunrong, Liu, Lanrong, Yu, Tianfei, Xu, Xingjun, Shao, Shuli, Wang, Changhe
Format: Article
Language:English
Subjects:
Adaptation
Animal Anatomy
Animal morphology
Animal Systematics/Taxonomy/Biogeography
Atrophy
Biomedical and Life Sciences
Birds
Developmental Biology
Duodenum
Environmental changes
Environmental factors
Epithelium
Evolutionary Biology
Flight
Food quality
Foods
Gastrointestinal tract
Glands
Histology
Intestines
Life Sciences
Morphology
Mucosa
Original Paper
Passer montanus
Phenotypic plasticity
Plasticity
Seasonal variation
Seasonal variations
Small intestine
Summer
Villus
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Summary:When facing seasonal environmental changes, flying birds and small mammals may develop adaptive gastrointestinal changes to optimize their digestive and absorptive strategies to meet the changing of physiologic needs. As a main component of gastrointestinal tract, small intestine is extraordinarily sensitive to food abundance, food quality, and other environmental factors. However, the detailed morphological adaptations of the small intestine during seasonal changes are largely unknown. Here, we studied the morphological and histological dynamics of duodenum from Passer montanus in Zhalong Nature Reserve in China during seasonal changes. The luminal and wall cross-section area were greater in spring and autumn than that in summer. Villus height and width went up to peak values in winter and showed similar seasonal dynamic changes with that of mucosal thickness, while villus atrophy accompanied by the deepest crypt depth was easily detected in summer. Epithelium thickness was coincident with villus atrophy except a sharp increase in summer. Submucosal thickness was negatively correlated with that of mucosa, while the size, but not total number, of duodenal glands was altered to reflect to seasonal changes. Neither the inner circular nor the outer longitudinal muscle showed seasonal morphological changes, indicating the relatively stable plasticity of intestine muscle structures. Taken together, we propose that phenotypic flexibility in digestive morphology and histology enables small birds to cope with remarkable seasonal changes.
ISSN:0720-213X
1432-234X
DOI:10.1007/s00435-014-0238-3