Datasets

subject: Paleoclimate subject: Earth and Atmospheric Sciences type: dataset

Total is 4 Results
Competing Topographic Mechanisms

10.4231/M7JA-S342

Matthew Huber ORCID logo , Rene Paul Acosta ORCID logo

09/13/2021

The aim of this body of work is to identify the impact of Tibetan Plateau orography on the evolution of the Asian climate system.

CESM Climate Earth and Atmospheric Sciences Himalayas Monsoon Paleoclimate Tibet topography

Competing Topographic Mechanisms

10.4231/4KJV-B657

Matthew Huber ORCID logo , Rene Paul Acosta ORCID logo

01/06/2020

The Indo-Asian Monsoon (IAM) circulation is an exemplar for how tectonic processes interact with regional climate systems. This study aims to identify the impact of orography on the IAM using high-resolution models.

CESM Climate Earth and Atmospheric Sciences High-resolution Himalayas Monsoon Paleoclimate Tibet

C4 photosynthesis and climate through the lens of optimality

10.4231/R7PR7T75

Ashley Dicks , Brent Helliker , Erol Akçay , Haoran Zhou ORCID logo , Matthew Huber ORCID logo

10/30/2018

Post-processed climate model output and associated source code for "C4 photosynthesis and climate through the lens of optimality"

c4 Climate Change EAPS Earth and Atmospheric Sciences Evolution Huber Miocene Paleoclimate Plants

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