CIDER logo

Cooperative Institute for Dynamic Earth Research (CIDER)

CIDER is an inter-disciplinary synthesis center, research incubator, and research framework for tackling the fundamental question of the nature of global geodynamic processes. CIDER has a strong emphasis in cross-disciplinary training of early career scientists. It aids communication across disciplines and scientific generations and provides mentorship and research opportunities for the next generation of solid earth scientists. The ultimate goal is to understand the origin, evolution, and dynamics of the Earth and planets.

2017 pre-AGU Workshop     2018 Summer Program

CIDER Overview

  • Visit the News Page for latest news and deadlines, as well as CIDER wiki page for general CIDER announcements, and materials assembled since 2004, including lecture collection.
  • CIDER-II is funded as a "Synthesis Center" by the Frontiers of Earth Systems Dynamics(FESD) program of NSF under grant number EAR-1135452. Please acknowledge the CIDER program and this grant in any publication resulting from or inspired by CIDER.
  • Browse through the CIDER lecture collection from 2004 to present.

The goals of the Cooperative Institute for Dynamic EarthResearch (CIDER-II) are: (1) To provide an optimal environment for transformative studies requiring a concerted effort of leading researchers from different areas of Earth Sciences: high pressure material science, geodynamics, seismology, geochemistry and geomagnetism, and (2) to educate a new generation of Earth scientists with breadth of competence across the disciplines contributing to understanding of the deep earth. The ultimate goal of CIDER is to develop an integrative conceptual model drawing upon all contributing disciplines to understand the origin, evolution, and dynamics of the Earth and, by extension, other planets. The practical objectives are to:

  • Address the most important and difficult problems that have defied solution thus far by fostering collaborations that can fully utilize existing knowledge and technology.
  • Provide a seed-bed for ideas that will identify the next generation of critical experiments and observations, and build support and appreciation for them.
  • Provide a venue for cross-disciplinary education of scientists at all career levels, and in particular, educate a new generation of Earth scientists with a breadth of competence across disciplines.

The notion of "Synthesis Center" can have different meanings. In the case of CIDER-II, the goal is to develop a community oriented, open facility that will identify key cross-disciplinary problems to tackle, foster the development of integrative ideas and address a broad range of cutting edge questions around the overarching general theme of "how the earth works?". The CIDER vision was first developed almost 10 years ago, when the first CIDER proposal was submitted to the NSF/EAR/CSEDI program, with, as leading motivation, the need to elucidate the driving mechanisms of plate tectonics. Owing to the reduction in scope and budget from the original request, CIDER-I's scope was necessarily restricted to student training and education. CIDER-II builds upon the accomplishments and experience gained during the CIDER-I summer programs. However, the goal of CIDER-II is to reinstate the original vision by providing the resources and opportunities needed to foster and conduct necessary follow-up work across disciplines.

CIDER Highlights

people collaborating

Advancing Geoscience Research through CIDER
With growing technical sophistication in the earth sciences and increasing specialization within its subdisciplines, geoscientists face an organizational problem when we want to tackle grand research challenges that span many disciplines. How do we bring the various fields together to leverage their individual strengths and create something more than the sum of the parts? This is the problem that CIDER (Cooperative Institute for Dynamic Earth Research) attempts to solve... Read more from Groundwork

poster session photo
Geochemical signals from deep inside Earth are beginning to shed light on the planet's first 50 million years, a formative period long viewed as inaccessible to science. Read more at Quanta Magazine

CIDER 2015 group picture
CIDER 2015
CIDER 2016 group picture
CIDER 2016
CIDER 2004 group picture
CIDER 2004