Water Vapour Conductance of Passerine Nest Walls

IF 0.8 4区生物学 Q3 ORNITHOLOGY

Acta Ornithologica Pub Date : 2020-10-19 DOI:10.3161/00016454AO2020.55.1.002

D. Deeming, Rebecca Gilchrist, Monika Szafraniec, Joshua M. Pollins

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引用次数: 4

Abstract

Abstract. Avian incubation relies on maintenance of the appropriate temperature and humidity within the nest. Previous studies suggested that conductance of the nest wall to water vapour was relatively low, albeit greater than the conductance of the eggshell, but no empirical studies confirmed this. In this study hygrometer loggers were used to measure water vapour inside and outside nest cups to determine conductance of the nest wall. Average water vapour conductance values for nine species of passerine ranged from 479 mgH2O·day-1·Torr-1 for Common Chaffinch Fringilla coelebs nests to 712 mgH2O·d-1·Torr-1 for Eurasian Reed Warbler Acrocephalus scirpaceus nests. Generally, water vapour conductance values were two orders of magnitude higher than that of published values for the eggshell for these species, although humidity in the nest cup were comparable to published data for passerine nests. These results indicate that in the study species the nest wall was not an effective barrier to water vapour loss. Reconsideration of high values for nest wall conductance, nest attentiveness and sources of water to create humidity, have led to a new approach that deals with nest humidity as part of the water budget during the incubation period. Over time the amount of water vapour required to raise nest humidity far exceeds that released by the eggs. It is proposed that nest humidity is driven by cutaneous water loss from the incubating bird, rather than water vapour lost from the eggs, in order to counter loss of humidity through the nest wall and during incubation recesses.

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雀鸟巢壁的水蒸气电导

摘要鸟类的孵化依赖于巢内保持适当的温度和湿度。先前的研究表明，巢壁对水蒸气的电导率相对较低，尽管大于蛋壳的电导率，但没有实证研究证实这一点。在这项研究中，湿度计记录仪被用来测量巢杯内外的水蒸气，以确定巢壁的电导率。9种雀形目雀形目的平均水蒸气传导率值范围从普通Chaffinch Fringilla coelebs巢穴的479 mgH2O·d-1·Torr-1到欧亚苇莺Acrochalus scirpaceus巢穴的712 mgH2O•d-1·Torr-1。一般来说，这些物种蛋壳的水蒸气电导值比已公布的值高出两个数量级，尽管巢杯中的湿度与雀形目巢穴的已公布数据相当。这些结果表明，在研究物种中，巢壁并不是水蒸气损失的有效屏障。重新考虑巢壁电导、巢注意力和产生湿度的水源的高值，导致了一种新的方法，将巢湿度作为孵化期水预算的一部分。随着时间的推移，提高巢穴湿度所需的水蒸气量远远超过鸡蛋释放的水蒸气。有人提出，巢穴湿度是由孵化鸟类的皮肤水分损失驱动的，而不是蛋的水蒸气损失，以对抗通过巢穴壁和孵化凹陷期间的湿度损失。

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

Acta Ornithologica 生物-鸟类学

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Publishes scientific papers (original research reports, reviews, short notes, etc.) and announcements from all fields of ornithology. All manuscripts are peer-reviewed. Established in 1933 as Acta Ornithologica Musei Zoologici Polonici, since 1953 continued under the present title. Published twice a year by the Natura Optima Dux Foundation under the auspices of the Museum and Institute of Zoology, Polish Academy of Sciences.