Department of Earth and Environmental Sciences and Museum of Paleontology, University of Michigan, North University Building, 1100 North University Ave., Ann Arbor, 48109-1005, MI, USA.
U.S. Department of Energy, Forrestal Building, Washington, 20585, D.C, USA.
Am J Bot. 2024 Nov;111(11):e16426. doi: 10.1002/ajb2.16426. Epub 2024 Oct 25.
The ecological conditions that constrain plants to an environmental niche are assumed to be constant through time. While the fossil record has been used previously to test for niche conservatism of woody flowering plants, additional studies are needed in other plant groups especially since they can provide insight with paleoclimatic reconstructions, high biodiversity in modern terrestrial ecosystems, and significant contributions to agriculture.
We tested climatic niche conservatism across time by characterizing the climatic niches of living herbaceous ginger plants (Zingiberaceae) and woody dawn redwood (Metasequoia) against paleoniches reconstructed based on fossil distribution data and paleoclimatic models.
Despite few fossil Zingiberaceae occurrences in the latitudinal tropics, unlike living Zingiberaceae, extinct Zingiberaceae likely experienced paratropical conditions in the higher latitudes, especially in the Cretaceous and Paleogene. The living and fossil distributions of Metasequoia largely remain in the upper latitudes of the northern hemisphere. The Zingiberaceae shifted from an initial subtropical climatic paleoniche in the Cretaceous, toward a temperate regime in the late Cenozoic; Metasequoia occupied a more consistent climatic niche over the same time intervals.
Because of the inconsistent climatic niches of Zingiberaceae over geologic time, we are less confident of using them for taxonomic-based paleoclimatic reconstruction methods like nearest living relative, which assume a consistent climatic niche between extant and extinct relatives; we argue that the consistent climatic niche of Metasequoia is more appropriate for these reconstructions. Niche conservatism cannot be assumed between extant and extinct plants and should be tested further in groups used for paleoclimatic reconstructions.
限制植物处于环境小生境的生态条件被假定为随时间保持不变。虽然化石记录以前曾被用于测试木本开花植物的生态位保守性,但其他植物群也需要更多的研究,特别是因为它们可以为古气候重建、现代陆地生态系统的高生物多样性以及对农业的重要贡献提供深入了解。
我们通过对活草本姜科植物(姜科)和木本水杉(水杉)的气候小生境进行特征描述,并与基于化石分布数据和古气候模型重建的古气候小生境进行对比,来测试跨时间的气候小生境保守性。
尽管化石姜科在热带地区的出现频率较低,但与活姜科不同,灭绝的姜科可能在较高纬度地区经历了副热带条件,特别是在白垩纪和古近纪。活水杉和化石水杉的分布主要仍局限于北半球的高纬度地区。姜科的气候小生境从白垩纪的初始亚热带气候小生境转变为新生代晚期的温带气候小生境;水杉在同一时期占据了更一致的气候小生境。
由于姜科在地质时间上的气候小生境不一致,我们对使用它们进行基于分类的古气候重建方法(如最近亲缘关系)的信心较低,这些方法假设现存和灭绝亲缘关系之间存在一致的气候小生境;我们认为水杉一致的气候小生境更适合这些重建。不能假定现存和灭绝植物之间的生态位保守性,应该在用于古气候重建的植物群中进一步测试。
