通过南加州的堆鼠冢了解古气候

E. Austin, A. Mychajliw
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引用次数: 0

摘要

记录过去生态系统对气候变化的反应可以为未来与保护决策相关的模型提供信息。鼠冢,或由瘤属啮齿动物收集的植物材料组成的巨大巢穴,代表了了解植物群落如何随时间变化的最佳数据源之一。这些巢穴可以保存数千年,跨越冰期-间冰期变化,如更新世-全新世过渡,或更近的波动,如小冰期和中世纪温暖期。利用美国地质勘探局-美国国家海洋和大气管理局(USGS-NOAA)开放获取的古气候数据库,对南加州的植物物种进行了时空重建,其中包括242个单独的杂草和193个可用的放射性碳年代,跨度约为44,493年(BP)。结果表明,在该地区共鉴定出374种植物,其中以约书亚树(Yucca brevifolia)、联合松(Joint Pine)和加利福尼亚杜松(Juniperus californica)最为丰富。然后,我们将这些数据应用于重建过去的植被群落,并将最近发现的从La Brea沥青坑(洛杉矶,加利福尼亚)恢复的沥青坑作为背景。La Brea midden代表了我们在加利福尼亚数据集中最古老和最沿海的midden,包含了跨越海洋同位素阶段2-3的植被。最终,这项研究使我们能够描绘出一幅随时间变化的植被图,作为古生态食物网研究的基线,并可以与今天在这个城市生物多样性热点地区发现的背包鼠巢穴进行比较。这些数据将通过保护古生物学网络的城市植被工作组(总部设在加州洛杉矶)进行整理,供整个地区的保护和管理项目使用。有了这些信息,CPN可以在社会上实施栖息地恢复项目。
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UNDERSTANDING PALEOCLIMATE THROUGH SOUTHERN CALIFORNIA'S PACKRAT MIDDENS
Documenting how ecosystems responded to climate change in the past can inform models for the future relevant to conservation decision-making. Packrat middens, or giant nests consisting of gathered plant material made by rodents of the genus Neotoma, represent one of the best data sources for understanding how plant communities change over time. These nests can be preserved for thousands of years, spanning episodes of glacial-interglacial variation, such as the Pleistocene-Holocene transition, or more recent fluctuations, such as the Little Ice Age and Medieval Warm Period. We used the USGS-NOAA paleoclimate open-access database to develop spatiotemporal reconstructions of plant species in Southern California, incorporating more than 242 individual middens with a total of 193 available radiocarbon dates spanning around 44,493 years cal BP. As a result, 374 plant species were identified within the SoCal middens, with Joshua Tree (Yucca brevifolia), Joint Pine (Ephedra species), and California Juniper (Juniperus californica) being the most abundant. We then applied these data to reconstruct past vegetation communities and contextualize a recently discovered asphaltic midden recovered from the La Brea Tar Pits (Los Angeles, California). The La Brea midden represents both the oldest and most coastal midden in our dataset in California and contains vegetation spanning Marine Isotope Stages 2-3. Ultimately, this research allows us to paint a picture of changing vegetation over time as a baseline for palaeoecological food web studies and can be compared with present day packrat nests found in this urban biodiversity hotspot. These data will be curated through the Conservation Paleobiology Network’s urban vegetation working group (based in Los Angeles, California) and made available for use by conservation and management projects throughout the region. With this information, CPN can implement habitat restoration projects in SoCal.
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