Related News for Tarik Gouhier

Reintroducing Bee-like Species to Collapsing Ecosystems

CEE Distinguished Professor Auroop Ganguly and Assistant Professor Tarik Gouhier conclude that honeybees are the simplest and most effective species to reintroduce to ecosystems collapsing from climate change. Their research was published in the journal Communications Biology.

Reviving Ecosystems: Maximizing Biodiversity Recovery Through Network-Based Restoration Strategies

Alumnus Udit Bhatia, PhD’18, civil and environmental engineering, and Auroop Ganguly, COE distinguished professor of CEE, were two of the co-authors of the paper “Network-based Restoration Strategies Maximize Ecosystem Recovery” published in Communications Biology. The paper discusses how global biodiversity loss demands predictive frameworks for ecosystem collapse and effective restoration strategies.

Insect Population Decline to Effect Pollination

Interdisciplinary engineering student Kate Duffy, PhD’21, has been studying the effect of climate change on insect populations and their important role in our ecosystem.

Effect of Climate Change on Ecological Populations

CEE Affiliated Faculty Tarik Gouhier and Professor Auroop Ganguly’s research on “Climate-mediated shifts in temperature fluctuations promote extinction risk” was published in Nature Climate Change.

Climate Effect on Coast

CIV Associate Professor Auroop Ganguly & Tarik Gouhier’s article in Nature shows that climate change will result in major changes in coastal marine ecosystems.

Interdisciplinary NSF Grant

Electrical & Computer Engineering Associate Professor Jennifer Dy, Civil & Environmental Engineering Associate Professor Auroop Ganguly & Affiliated Assistant Professor Tarik Gouhier were awarded an $1.2M NSF Cyber SEES grant to study changes in marine organisms based on ocean temperature. The Cyber-Innovation for Sustainability Science and Engineering (CyberSEES) program aims to advance interdisciplinary research in […]

FY14 TIER 1 Award Recipients

22 COE faculty and affiliates were recipients of FY14 TIER 1 Interdisciplinary Research Seed Grants for 14 different research projects.