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A comprehensive history of climate and habitat stability of the last 800&thinsp,000 years (2019)

Krapp, Mario ; Beyer, Robert ; Edmundson, Stephen L. ; [et al.]

Copernicus

In: Climate of the Past Discussions. 2019; 1-29. Published 2019 Aug 01. doi: 10.5194/cp-2019-91. [early online release]

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Publication Date: 2019-08-01

Description: A detailed and accurate reconstruction of the past climate is essential in understanding the interactions between ecosystems and their environment through time. We know that climatic drivers have shaped the distribution and evolution of species, including our own, and their habitats. Yet, spatially-detailed climate reconstructions that continuously cover the Quaternary do not exist. This is mainly because no paleoclimate model can reconstruct regional-scale dynamics over geological time scales. Here we develop a statistical emulator, the Global Climate Model Emulator (GCMET), which reconstructs the climate of the last 800 000 years with unprecedented spatial detail. GCMET captures the temporal dynamics of glacial-interglacial climates as an Earth System Model of Intermediate Complexity would whilst resolving the local dynamics with the accuracy of a Global Climate Model. It provides a new, unique resource to explore the climate of the Quaternary, which we use to investigate the long-term stability of major habitat types. We identify a number of stable pockets of habitat that have remained unchanged over the last 800 thousand years, acting as potential long-term evolutionary refugia. Thus, the highly detailed, comprehensive overview of climatic changes through time delivered by GCMET provides the needed resolution to quantify the role of long term habitat change and fragmentation in an ecological and anthropological context.

Print ISSN: 1814-9340

Electronic ISSN: 1814-9359

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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A statistics-based reconstruction of high-resolution global terrestrial climate for the last 800,000 years (2021)

Krapp, Mario ; Beyer, Robert M. ; Edmundson, Stephen L. ; [et al.]

Springer Nature

In: Scientific Data . 2021; 8(1): 228. Published 2021 Aug 27. doi: 10.1038/s41597-021-01009-3.

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Publication Date: 2021-08-27

Description: Curated global climate data have been generated from climate model outputs for the last 120,000 years, whereas reconstructions going back even further have been lacking due to the high computational cost of climate simulations. Here, we present a statistically-derived global terrestrial climate dataset for every 1,000 years of the last 800,000 years. It is based on a set of linear regressions between 72 existing HadCM3 climate simulations of the last 120,000 years and external forcings consisting of CO2, orbital parameters, and land type. The estimated climatologies were interpolated to 0.5° resolution and bias-corrected using present-day climate. The data compare well with the original HadCM3 simulations and with long-term proxy records. Our dataset includes monthly temperature, precipitation, cloud cover, and 17 bioclimatic variables. In addition, we derived net primary productivity and global biome distributions using the BIOME4 vegetation model. The data are a relevant source for different research areas, such as archaeology or ecology, to study the long-term effect of glacial-interglacial climate cycles for periods beyond the last 120,000 years.

Electronic ISSN: 2052-4463

Topics: Nature of Science, Research, Systems of Higher Education, Museum Science

Published by Springer Nature

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