48 research outputs found
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A data assimilation approach to last millennium temperature field reconstruction using a limited high-sensitivity proxy network
The authors acknowledge support from the Climate Program Office of the National Oceanographic and Atmospheric Administration (NOAA grants NA18OAR4310420 to KJA, NA18OAR4310426 to JEG and FZ, and NA18OAR4310422 to GJH). GJH also acknowledges support from the NSF through grant AGS–1702423. JMK was partially supported by NSF grant AGS-1803946. JET and JMK acknowledge support from NSF grant #AGS-1602301 and Heising655 Simons Foundation grant #2016-05.We use the Northern Hemisphere Tree-Ring Network Development (NTREND) tree-ring database to examine the effects of using a small, highly-sensitive proxy network for paleotemperature data assimilation over the last millennium. We first evaluate our methods using pseudo-proxy experiments. These indicate that spatial assimilations using this network are skillful in the extratropical Northern Hemisphere and improve on previous NTREND reconstructions based on Point-by-Point regression. We also find our method is sensitive to climate model biases when the number of sites becomes small. Based on these experiments, we then assimilate the real NTREND network. To quantify model prior uncertainty, we produce 10 separate reconstructions, each assimilating a different climate model. These reconstructions are most dissimilar prior to 1100 CE, when the network becomes sparse, but show greater consistency as the network grows. Temporal variability is also underestimated before 1100 CE. Our assimilation method produces spatial uncertainty estimates and these identify treeline North America and eastern Siberia as regions that would most benefit from development of new millennial-length temperature-sensitive tree-ring records. We compare our multi-model mean reconstruction to five existing paleo-temperature products to examine the range of reconstructed responses to radiative forcing. We find substantial differences in the spatial patterns and magnitudes of reconstructed responses to volcanic eruptions and in the transition between the Medieval epoch and Little Ice Age. These extant uncertainties call for the development of a paleoclimate reconstruction intercomparison framework for systematically examining the consequences of proxy network composition and reconstruction methodology and for continued expansion of tree-ring proxy networks.Publisher PDFPeer reviewe
A global multiproxy database for temperature reconstructions of the Common Era
Reproducible climate reconstructions of the Common Era (1 CE to present) are
key to placing industrial-era warming into the context of natural climatic
variability. Here we present a community-sourced database of temperature-
sensitive proxy records from the PAGES2k initiative. The database gathers 692
records from 648 locations, including all continental regions and major ocean
basins. The records are from trees, ice, sediment, corals, speleothems,
documentary evidence, and other archives. They range in length from 50 to 2000
years, with a median of 547 years, while temporal resolution ranges from
biweekly to centennial. Nearly half of the proxy time series are significantly
correlated with HadCRUT4.2 surface temperature over the period 1850–2014.
Global temperature composites show a remarkable degree of coherence between
high- and low-resolution archives, with broadly similar patterns across
archive types, terrestrial versus marine locations, and screening criteria.
The database is suited to investigations of global and regional temperature
variability over the Common Era, and is shared in the Linked Paleo Data (LiPD)
format, including serializations in Matlab, R and Python
Large-scale features and evaluation of the PMIP4-CMIP6 midHolocene simulations
The mid-Holocene (6,000 years ago) is a standard experiment for the evaluation of the simulated response of global climate models using paleoclimate reconstructions. The latest mid-Holocene simulations are a contribution by the Palaeoclimate Model Intercomparison Project (PMIP4) to the current phase of the Coupled Model Intercomparison Project (CMIP6). Here we provide an initial analysis and evaluation of the results of the experiment for the mid-Holocene. We show that state-of-the-art models produce climate changes that are broadly consistent with theory and observations, including increased summer warming of the northern hemisphere and associated shifts in tropical rainfall. Many features of the PMIP4-CMIP6 simulations were present in the previous generation (PMIP3-CMIP5) of simulations. The PMIP4-CMIP6 ensemble for the mid-Holocene has a global mean temperature change of -0.3 K, which is -0.2 K cooler that the PMIP3-CMIP5 simulations predominantly as a result of the prescription of realistic greenhouse gas concentrations in PMIP4-CMIP6. Neither this difference nor the improvement in model complexity and resolution seems to improve the realism of the simulations. Biases in the magnitude and the sign of regional responses identified in PMIP3-CMIP5, such as the amplification of the northern African monsoon, precipitation changes over Europe and simulated aridity in mid-Eurasia, are still present in the PMIP4-CMIP6 simulations. Despite these issues, PMIP4-CMIP6 and the mid-Holocene provide an opportunity both for quantitative evaluation and derivation of
emergent constraints on climate sensitivity and feedback strength
Data Analysis in the Earth & Environmental Sciences
<p>Introduction to mathematical methods giving insight into Earth and Environmental<br>data. Topics include : probability & statistics, timeseries analysis, spectral analysis, inverse theory, interpolation.</p>
<p>These are notes for the USC class ERSC425L, in book form. If you think that figshare should have a book category, make some noise!</p