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文莱达鲁萨兰国的首批化石叶植物群表明,上新世时期婆罗洲的豆科植物占优势。

First fossil-leaf floras from Brunei Darussalam show dipterocarp dominance in Borneo by the Pliocene.

机构信息

Department of Geosciences and Earth & Environmental Systems Institute, Pennsylvania State University, University Park, Pennsylvania, United States.

Department of Paleobotany and Paleoecology, Cleveland Museum of Natural History, Cleveland, Ohio, United States.

出版信息

PeerJ. 2022 Mar 24;10:e12949. doi: 10.7717/peerj.12949. eCollection 2022.

DOI:10.7717/peerj.12949
PMID:35356469
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8958975/
Abstract

The Malay Archipelago is one of the most biodiverse regions on Earth, but it suffers high extinction risks due to severe anthropogenic pressures. Paleobotanical knowledge provides baselines for the conservation of living analogs and improved understanding of vegetation, biogeography, and paleoenvironments through time. The Malesian bioregion is well studied palynologically, but there have been very few investigations of Cenozoic paleobotany (plant macrofossils) in a century or more. We report the first paleobotanical survey of Brunei Darussalam, a sultanate on the north coast of Borneo that still preserves the majority of its extraordinarily diverse, old-growth tropical rainforests. We discovered abundant compression floras dominated by angiosperm leaves at two sites of probable Pliocene age: Berakas Beach, in the Liang Formation, and Kampong Lugu, in an undescribed stratigraphic unit. Both sites also yielded rich palynofloral assemblages from the macrofossil-bearing beds, indicating lowland fern-dominated swamp (Berakas Beach) and mangrove swamp (Kampong Lugu) depositional environments. Fern spores from at least nine families dominate both palynological assemblages, along with abundant fungal and freshwater algal remains, rare marine microplankton, at least four mangrove genera, and a diverse rainforest tree and liana contribution (at least 19 families) with scarce pollen of Dipterocarpaceae, today's dominant regional life form. Compressed leaves and rare reproductive material represent influx to the depocenters from the adjacent coastal rainforests. Although only about 40% of specimens preserve informative details, we can distinguish 23 leaf and two reproductive morphotypes among the two sites. Dipterocarps are by far the most abundant group in both compression assemblages, providing rare, localized evidence for dipterocarp-dominated lowland rainforests in the Malay Archipelago before the Pleistocene. The dipterocarp fossils include winged fruits, at least two species of plicate leaves, and very common leaves. We attribute additional leaf taxa to Rhamnaceae (), Melastomataceae, and Araceae (), all rare or new fossil records for the region. The dipterocarp leaf dominance contrasts sharply with the family's <1% representation in the palynofloras from the same strata. This result directly demonstrates that dipterocarp pollen is prone to strong taphonomic filtering and underscores the importance of macrofossils for quantifying the timing of the dipterocarps' rise to dominance in the region. Our work shows that complex coastal rainforests dominated by dipterocarps, adjacent to swamps and mangroves and otherwise similar to modern ecosystems, have existed in Borneo for at least 4-5 million years. Our findings add historical impetus for the conservation of these gravely imperiled and extremely biodiverse ecosystems.

摘要

马来群岛是地球上生物多样性最丰富的地区之一,但由于人类的严重压力,它面临着高灭绝风险。古植物学知识为保护活的相似物提供了基线,并通过时间更好地了解植被、生物地理学和古环境。马来生物区系在孢粉学上研究得很好,但一个多世纪以来,对新生代古植物学(植物大化石)的研究非常少。我们报告了文莱达鲁萨兰国的第一次古植物学调查,文莱达鲁萨兰国是婆罗洲北岸的一个苏丹国,那里仍然保留着其异常多样的古老热带雨林的大部分地区。我们在两个可能为上新世的地点发现了丰富的以被子植物叶子为主的压缩植物群:良组的贝拉克海滩和未命名地层单位的鲁谷村。这两个地点的含大化石层也产生了丰富的孢粉组合,表明是低地蕨类为主的沼泽(贝拉克海滩)和红树林沼泽(鲁谷村)沉积环境。来自至少九个科的蕨类孢子在两个孢粉组合中占主导地位,还有丰富的真菌和淡水藻类残留物、罕见的海洋微浮游生物、至少四个红树林属以及多样的热带雨林树木和藤本植物(至少 19 个科),其中有稀少的龙脑香科花粉,这是该地区目前占主导地位的生命形式。压缩的叶子和罕见的繁殖材料代表着来自相邻沿海雨林的物质流入沉积中心。尽管只有大约 40%的标本保留了有信息的细节,但我们可以在这两个地点区分出 23 种叶子和两种繁殖形态型。龙脑香科是两个压缩组合中最丰富的群体,为马来群岛上新世以前以龙脑香科为主的低地雨林提供了罕见的局部证据。这些龙脑香科化石包括带翅的果实、至少两种褶皱叶和非常常见的叶子。我们将其他叶子类群归因于榕科()、野牡丹科和天南星科(),这在该地区都是罕见的或新的化石记录。龙脑香科叶子的优势与同一地层中孢粉组合中 <1%的代表形成鲜明对比。这一结果直接表明,龙脑香科花粉很容易受到强烈的化石过滤作用的影响,并强调了大化石对于量化该地区龙脑香科上升到优势地位的时间的重要性。我们的工作表明,以龙脑香科为主的复杂沿海雨林,毗邻沼泽和红树林,与现代生态系统相似,在婆罗洲已经存在了至少 4-500 万年。我们的发现为保护这些严重濒危和极其多样的生态系统提供了历史动力。

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