Seed traits linked to differential survival of plants during the Cretaceous/Paleogene impact winter

Q2 Agricultural and Biological Sciences

Acta Palaeobotanica Pub Date : 2020-12-30 DOI:10.35535/acpa-2020-0016

K. Berry

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引用次数: 6

Abstract

In past investigations the pattern of differential survival of plants across the K/Pg boundary has been viewed as incompatible with severe asteroid impact winter scenarios (i.e., an impact winter lasting more than a few months), particularly the enigmatic survival of coryphoid palms and Pandanus (screw pine). Stateof- the-art climate models based on soot, sulfate and nano-sized dust aerosols predict a global impact winter that drastically reduced precipitation and resulted in a transient period of total darkness and permafrost conditions. This suggests that the plants most likely to have been affected by the global mass-extinction event were tropical phanerophytes that produce recalcitrant seeds, which by definition are desiccation-intolerant, survive less than a year, and cannot survive freezing. However, this hypothesis has never been tested. In this study I sampled over 100 plant species from the global fossil record that have a high probability of having produced either recalcitrant seeds/disseminules (n1 = 58) or orthodox seeds (n2 = 59), based on their phylogenetic relationships with extant taxa that either are monomorphic for these traits or specifically exhibit a genetic marker for abscisic acid inhibition associated with seed dormancy and recalcitrance. A one-tailed z-test for the difference between two proportions revealed that plant taxa with a high probability of having produced recalcitrant seeds had significantly lower survivorship than plant taxa with a high probability of having produced orthodox seeds (p < 0.0001). Based on these data, it can be concluded that plants which formed a frost-tolerant seed bank during the latest Maastrichtian were significantly more likely to survive the K/Pg impact winter than plants which did not (including palms). These data clearly indicate that the K/Pg impact winter probably lasted longer than a year and that it selected for seed-based traits that effectively sorted correlated functional traits of mature plants (i.e., leaf physiognomic features). This novel hypothesis stands as an alternative to J.A. Wolfe’s classic hypothesis that a mild K/Pg impact winter selected for fast-growing angiosperms with deciduous leaves and did not affect the plant communities of the Southern Hemisphere. Potential mechanisms for the rare survival of tropical, recalcitrant-seeded plants are discussed.

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白垩纪/古近纪影响冬季与植物差异生存相关的种子特征

在过去的研究中，跨越K/Pg边界的植物的差异生存模式被认为与严重的小行星撞击冬季情景(即持续几个月以上的撞击冬季)不相容，特别是令人费解的椰树和Pandanus(螺松)的生存。基于烟尘、硫酸盐和纳米大小的粉尘气溶胶的最先进的气候模型预测了一个全球影响的冬季，该冬季将大幅减少降水，并导致短暂的完全黑暗和永久冻土条件。这表明，最有可能受到全球大灭绝事件影响的植物是产生顽固种子的热带显生植物，根据定义，这些种子不耐干燥，存活不到一年，不能在冷冻中存活。然而，这个假设从未被验证过。在这项研究中，我从全球化石记录中抽样了100多种植物物种，这些物种极有可能产生了顽固性种子/花被(n1 = 58)或正统种子(n2 = 59)，基于它们与现有分类群的系统发育关系，这些分类群要么具有这些特征的单态，要么特别表现出与种子休眠和顽固性相关的脱落酸抑制的遗传标记。单尾z检验表明，产生抗性种子的高概率植物类群的存活率显著低于产生正统种子的高概率植物类群(p < 0.0001)。根据这些数据，可以得出结论，在最新的马斯特里赫特时期形成耐寒种子库的植物比没有形成耐寒种子库的植物(包括棕榈树)更有可能在K/Pg影响冬季中存活下来。这些数据清楚地表明，K/Pg影响冬季可能持续了一年以上，并且它选择了基于种子的性状，有效地分类了成熟植物的相关功能性状(即叶片面相特征)。这一新假说与J.A. Wolfe的经典假说截然不同，后者认为冬季轻微的K/Pg影响只发生在速生落叶被子植物中，而不影响南半球的植物群落。讨论了热带顽固种子植物罕见存活的潜在机制。

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 Palaeobotanica Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

20 weeks

期刊介绍： Acta Palaeobotanica is an international journal edited in English by the W. Szafer Institute of Botany, Polish Academy of Sciences, Kraków, since 1960, which publishes original palaeobotanical, palynological, palaeoecological and palaeophytogeographical papers, monographs, review and discussion articles and book reviews. It is the only journal in the Central and Eastern Europe publishing papers from all fields of palaeobotany. The journal is published regularly in one volume per year, with two numbers.