Seed dormancy in Asteraceae: a global vegetation zone and taxonomic/phylogenetic assessment

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-04-17 DOI:10.1017/s0960258523000107
C. Baskin, J. Baskin
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引用次数: 1

Abstract

The Asteraceae with up to 30,000 species occurs on all continents except Antarctica and in all major vegetation zones on earth. Our primary aim was to consider cypselae dormancy-break and germination of Asteraceae in relation to ecology, vegetation zones and evolution. Cypselae are desiccation-tolerant and in various tribes, genera, species and life forms of Asteraceae are either non-dormant (ND) or have non-deep physiological dormancy (PD) at maturity. All six types of non-deep PD are found among the Asteraceae, and dormancy is broken by cold or warm stratification or by afterripening. Soil cypselae banks may be formed but mostly are short-lived. Much within-species variation in dormancy-break and germination has been found. Using data compiled for 1192 species in 373 genera and 35 tribes of Asteraceae, we considered ND and PD in relation to life form, vegetation zone and tribe. Senecioneae and Astereae had the best representation across the vegetation zones on earth. In evergreen and semi-evergreen rainforests, more species have ND than PD, but in all other vegetation zones, except alpine/high-latitude tundra (where ND and PD are equal), more species have PD than ND. Tribes in the basal and central grades and those in the Heliantheae Alliance have both ND and PD. The high diversity and lability of non-deep PD may have enhanced the rate of species diversification by promoting the survival of new species and/or species in new habitats that became available following globally disruptive events since the origin of the Asteraceae in the Late Cretaceous.
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菊科植物的种子休眠:一个全球植被带和分类/系统发育评价
菊科的种类多达3万种,分布在除南极洲以外的所有大陆和地球上所有主要的植被带。我们的主要目的是考虑菊科植物的休眠和萌发与生态学、植被带和进化的关系。菊科各部落、属、种和生命体在成熟期均为非休眠(ND)或非深度生理休眠(PD),具有耐干燥性。在菊科植物中发现了6种非深度PD类型,休眠通过冷或暖分层或后熟来打破。土壤草库可以形成,但大多是短命的。休眠和发芽在种内有很大的差异。利用收集到的菊科35个部落373属1192种的资料,从生命形态、植被带和部落三个方面考虑了ND和PD的关系。在地球的植被带中,最具代表性的是苍鹭科和苍鹭科。在常绿和半常绿雨林中,发生PD的物种多于发生PD的物种,但在除高山/高纬度苔原(ND和PD相等)外的所有植被带中,发生PD的物种多于发生ND的物种。基部和中部等级的部落以及太阳花科联盟的部落都有ND和PD。非深部PD的高度多样性和不稳定性可能通过促进新物种和/或新栖息地的生存而提高了物种多样化的速度,这些新栖息地是自晚白垩纪Asteraceae起源以来的全球破坏性事件之后出现的。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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