HelioWebChristina M. Patricola
flowchart
A[Christina M. Patricola]
AC["Associated Concepts (22)"]
AW["Authored Works (14)"]
CA["Linked Co-Authors (21)"]
CI["Linked Collaborating Institutions (17)"]
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AW== author ==>CA
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click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0002-3387-0307
- OpenAlex ID
- https://openalex.org/A5091216329 (API record)
Associated Concepts [?]
- Geography
- Geology
- Physics
- Climatology
- Meteorology
- Environmental science
- Oceanography
- Biology
- Ecology
- Climate change
- Atmospheric sciences
- Tropical cyclone
- Computer science
- Precipitation
- Engineering
- Climate model
- Thermodynamics
- Sea surface temperature
- Storm
- Mathematics
- Mechanics
- Quantum mechanics
Authored Works
sorted by decreasing year, and then by display-name
- Tropical Cyclone Frequency: The Role of Seeds and the Large-Scale Environment (Invited)
- The Influence of ENSO on Future Atlantic Tropical Cyclone Activity
- The El Niño-Southern Oscillation-Tropical Cyclone Relationship in a Statistical-Dynamical Downscaling Model
- Influence of African Easterly Wave Suppression on Atlantic Tropical Cyclone Activity in a Convection-Permitting Model
- Future Projections of the El Niño - Southern Oscillation in CMIP6: Influence of Climate Model Bias
- Contrasting Responses of Atlantic and Pacific Tropical Cyclone Activity to Atlantic Multidecadal Variability
- A High-Resolution Regional Climate Model Framework for Projecting Future Change in Historically Impactful Extreme Weather Events (Invited)
- The Influence of Ocean Coupling on Simulated and Projected Tropical Cyclone Precipitation in the HighResMIPPRIMAVERA Simulations
- Ocean Interaction and the Intensity Evolution of Two High-Impact Super Typhoons: Hagibis (2019) and Haiyan (2013)
- Explainable Artificial Intelligence for Insights into the Relationship between ENSO and Tropical Cyclone Genesis
- Differing Evolutions of Flow and Moisture Bias in a Climate Model and Their Influences on Weather Extremes
- Detection and Attribution of Regional Precipitation Change with Granger Causality: Overcoming Limited Observations, Modeling Uncertainty, and Large Internal Variability
- Detection and Attribution of Regional Precipitation Change with Granger Causality: Approaches to Short- and Long-Lived Climate Forcers
- Anthropogenic and Meteorological Contributions to the 2021 Pacific Northwest Heatwave
Linked Co-Authors
- C. Karamperidou
- Chia‐Ying Lee
- Dan Fu
- Derrick Kwadwo Danso
- Emily Bercos‐Hickey
- Huanping Huang
- Héctor Alejandro Inda Díaz
- I. I. Lin
- Iam-Fei Pun
- Jin‐Yi Yu
- Jun A. Zhang
- L. M. Swenson
- Mark D. Risser
- Michael Wehner
- Nathan Erickson
- P. A. Ullrich
- Ping Chang
- Robert F. Rogers
- T. A. O’Brien
- William D. Collins
- Zhiyong Yang
Linked Collaborating Institutions
- Colorado State University
- Columbia University, New York
- Dartmouth College, New Hampshire
- Indiana University, Bloomington
- Iowa State University
- Lamont-Doherty Earth Observatory
- Lawrence Berkeley National Laboratory, California
- National Center for Atmospheric Research, Colorado
- National Central University, Taiwan
- National Taiwan University
- San Jose State University, California
- Texas A&M University, College Station
- University of California, Berkeley
- University of California, Davis
- University of California, Irvine
- University of Hawaii, Manoa
- University of Miami, Florida
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