Peer-reviewed Journal Articles

The Moore Center for Science at Conservation International is one of the world’s premier conservation research institutes, producing and applying groundbreaking and policy-relevant research to help decision-makers protect nature. To date, Conservation International has published more than 1,100 peer-reviewed articles, many in leading journals including Science, Nature and the Proceedings of the National Academy of Sciences.

On average, each of our scientific papers is cited more than 45 times by other scholars — a rate exceeding that of any other U.S. conservation organization as well as leading universities.

Here is an archive of our most recent research.

Evaluating the sensitivity of dendritic connectivity to fish pass efficiency for the Sesan, Srepok and Sekong tributaries of the Lower Mekong

Kashif Shaada, Nicholas J. Souter, Tracy Farrell, Derek Vollmer, Helen M. Reganc

Ecological Indicators, Volume 91, Pages 570-574

August 01, 2018

Hydropower dam development in the Mekong River Basin is threatening both biodiversity and the output of the world’s largest inland fishery. Fragmentation of the river system by dams blocking the free movement of riverine species can have a direct impact on migratory fish species, which constitute a significant portion of the basins wild fishery. Fish passes, which allow fish to bypass dams, are often proposed as potential solutions to these problems. However, there is uncertainty around the effectiveness of fish passes in the species-rich environment of the Lower Mekong, and this has real consequences for the region and its development strategies. As a first step to evaluate the effects of dams in the region, we used the Dendritic Connectivity Index (DCI) to examine the impact on connectivity by providing fish passage on as many as 105 current, under construction and planned dams on the Sesan, Srepok and Sekong tributaries of the Mekong River. Our results indicate that, at the current stage of development, overall connectivity of the river system is sensitive to the efficiency of fish passes – and with highly efficient fish passes, connectivity comparable to a natural network is possible. However, as the number of dams on each tributary increase, even highly efficient fish passes are unable to improve connectivity significantly. While this paper does not explicitly focus on the functioning and limitation of fish passes, this broader analysis clearly establishes that, if constructed, robust monitoring for the newly-designed fish pass on the Lower Sesan II dam would be critical for evaluating and informing future development strategies.

Read More


Shaad, K., Souter, N. J., Farrell, T., Vollmer, D., & Regan, H. M. (2018). Evaluating the sensitivity of dendritic connectivity to fish pass efficiency for the Sesan, Srepok and Sekong tributaries of the Lower Mekong. Ecological Indicators, 91, 570–574.