Temperature and relative humidity in a palaeontological collection: the buffering effect of microenvironments

IF 1 4区 地球科学 Q4 PALEONTOLOGY
Alejandra Rojas, Fernanda Cabrera, Andrea Corona
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引用次数: 2

Abstract

Adequate values of environmental parameters are crucial for the long-term preservation of the fossils in a palaeontological collection. In particular, incorrect or fluctuating temperature (T) and relative humidity (RH) can affect glued or repaired materials, induce the proliferation of mould, provoke mechanical breakage, recrystallization or mineral decay. From April 2015 to March 2017, six hygrothermometers were incorporated in selected microenvironments of the Palaeontological Collection at the Facultad de Ciencias, Universidad de la República at Montevideo, Uruguay. The main aim of this study was to test the buffering effect of different enclosures compared to the ambient environmental parameters (AMB). The selected storage units were a mobile rack of shelves (C1), a cardboard box inside C1 (C2), a lidded plastic polypropylene box inside C1 (C3), a drawer in a non sealed cabinet (P), and a drawer inside a tightly sealing cabinet (G1). Maximum and minimum values of T and RH were manually gathered on a weekly basis. Linear graphs and statistical analysis (i.e. mean values, standard deviation and Kruskall-Wallis non-parametric variance analysis) were used to compare the measurements obtained. Regarding both T and RH, the more extreme values and fluctuation of these parameters were achieved in the ambient. With respect to T, all enclosures protected from Tmax variations as lower Tmax were recorded inside enclosures. With respect to RH, only C3 and G1 showed significantly lower values of RHmax than ambient values. Additionally, C3 and G1 showed an almost constant amplitude between maximum and minimum values which indicates that specimens were less exposed to fluctuations in RH. The results herein obtained show that to minimize the impact of environmental instability, it is safer for specimens to substitute cardboard by plastic containers, and closed storage units are better than open ones. In addition, sealed containers and cabinets protect the specimens from other agents of deterioration such as dust and pests.

古生物标本中的温度和相对湿度:微环境的缓冲作用
适当的环境参数值对于古生物学化石的长期保存至关重要。特别是,不正确或波动的温度(T)和相对湿度(RH)会影响粘合或修复的材料,诱导霉菌增殖,引起机械断裂,再结晶或矿物腐烂。2015年4月至2017年3月,在乌拉圭蒙得维的亚República大学科学学院古生物馆藏的选定微环境中安装了6个湿度计。本研究的主要目的是测试不同外壳与环境参数(AMB)的缓冲效果。所选择的存储单元为:移动货架(C1)、C1 (C2)内的纸板箱、C1 (C3)内的有盖聚丙烯塑料盒、非密封机柜内的抽屉(P)、密封机柜内的抽屉(G1)。每周手工采集T和RH的最大值和最小值。采用线性图和统计分析(即平均值、标准差和Kruskall-Wallis非参数方差分析)对得到的测量结果进行比较。对于T和RH,这些参数的极端值和波动都是在环境中实现的。对于T,所有保护不受Tmax变化影响的箱体均记录在箱体内。RH方面,只有C3和G1的RHmax值明显低于环境值。此外,C3和G1在最大值和最小值之间表现出几乎恒定的振幅,这表明标本较少受到RH波动的影响。研究结果表明,为了最大限度地减少环境不稳定的影响,用塑料容器代替纸板对标本更安全,封闭的存储单元优于开放的存储单元。此外,密封的容器和橱柜可以保护标本免受灰尘和害虫等其他恶化因素的影响。
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来源期刊
Annales de Paleontologie
Annales de Paleontologie 地学-古生物学
CiteScore
1.70
自引率
10.00%
发文量
8
审稿时长
>12 weeks
期刊介绍: Créées par Marcellin Boule en 1905, les Annales de Paléontologie publient 4 numéros par an traitant des fossiles animaux et végétaux, dans tous les domaines de la paléontologie incluant : -La Paléoanatomie- La Paléohistologie- La Morphologie fonctionnelle- La Systématique- L''Évolution- La Paléoécologie ... et toute les contributions susceptibles d''améliorer la compréhension des organismes et des environnements éteints.
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