Research

Our Research Pillars

Climate change is a shift in our planet’s weather and climate systems that brings about increasing average temperatures and more erratic weather events, rising seas, changes in habitats and wildlife, and a myriad of other impacts. Understanding the implications and likelihood of climate change impacts on natural and human systems in the Asia-Pacific region is important for developing strategies to safeguard the region against environmental, social and economic perturbations.

Explore Our Research Areas

  • Technology-Driven Methods for Estimation of Nature-Based Carbon Stocks in Singapore

    Khairun Nisha Binte Mohamed Ramdzan, Zu Dienle Tan, Leah Mary Lilly Denoun, H. Manjari Jayathilake, Annabel Jia Yi Lim, Yiwen Zeng, Hao Tang, and Lian Pin Koh

    Centre for Nature-based Climate Solutions, Faculty of Science, National University of Singapore

    Final Report

    Calculating forest carbon using forest inventory measurements can be laborious, mainly when conducted across an entire forest. As a result, reliance on traditional ground-based methods alone may not provide comprehensive forest information at a broad spatial scale. Instead, remote sensing technologies such as LiDAR (Light Detection and Ranging) and satellite imagery offer invaluable tools for gathering forest information, including tree heights and canopy structure, across vast landscapes. This project incorporated remote sensing technologies and field measurements to pave the way for a cost-effective means of surveying and monitoring nature-based carbon projects. It provides a preliminary estimate of carbon for different forest ecosystem types across Singapore and demonstrated the use of remote sensing technology for potential monitoring of forest aboveground carbon density (ACD). Further, the findings show that remote sensing technology can scale up field measurements and estimate spatially explicit carbon over a larger area. These carbon maps offer valuable insights into carbon sequestration potential, allowing stakeholders from diverse fields to make informed decisions on nature-based solution projects.

    Published March 2024
    Read more
  • Increasing contribution of urban greenery to residential real estate valuation over time

    Hoong Chen Teo, Tze Kwan Fung, Xiao Ping Song, Richard N. Belcher, Kelly Siman, Ian Z.W. Chan, Lian Pin Koh

    Sustainable Cities and Society

    Cities can experience losing greenery to urban development, while also pursuing greening efforts. However, whether and how long-term changes in land-use and policies affect ecosystem services and greenery preferences is not well-known, due to the paucity of longitudinal data. We created a novel land cover fraction map in Singapore from 1990 to 2020 using high-resolution satellite imagery, finding an overall decline in greenery area within public housing towns and evidence of greenery intensification in the remaining greenery area. Hedonic pricing analysis suggested positive and increasing marginal effects of greenery area on real estate prices; for each apartment unit this was S$39,130 ± S$15,951 (9.2% ± 3.8% of the average real estate price) during the 1990s; S$46,049 ± S$14,124 (10.9% ± 3.3%) during the 2000s; and S$50,048 ± S$17,079 (11.7% ± 4.0%) during the 2010s. An increased preference for tree cover and decreased preference for grass cover was observed, reflecting long-term changes in urban land-use and greening efforts. Our results suggest that urban greenery has become increasingly valuable to home owners and society in Singapore, occurring alongside decreasing quantity and increasing quality of urban greenery, illustrating how combining careful development with greening efforts can lead to an increase in urban ecosystem services.

    Published September 2023
    Read more
  • Achieving ambitious mangrove restoration targets will need a transdisciplinary and evidence-informed approach

    Daniel A. Friess, Yasmine M. Gatt, Rio Ahmad, Benjamin M. Brown, Frida Sidik, Dominic Wodehouse
    One Earth

    There are ambitious plans to restore hundreds of thousands of hectares of mangrove forests over the next 5 years to restore habitats and mitigate climate change. However, if not properly planned, such actions have the potential to fail. This paper outlines a transdisciplinary plan for mangrove restoration based on strong scientific principles.

    Published May 2022
    Read more
  • Extending our scientific reach in arboreal ecosystems for research and management

    Charles H. Cannon, Colby Borchetta, Jun Ying Lim, et al.
    Frontiers in Forests and Global Change

    The arboreal ecosystem is vitally important to global and local biogeochemical processes, the maintenance of biodiversity in natural systems, and human health in urban environments. The ability to collect samples, observations, and data to conduct meaningful scientific research is similarly vital. This study aims to identify the strategies that would provide the benefits to a broad range of scientists, arborists, and professional climbers and facilitate basic discovery and applied management.

    Published November 2021
    Read more
  • Large conservation opportunities exist in >90% of tropic-subtropic coastal habitats adjacent to cities

    Tessa Mazor, Daniel A.Friess, Peter A.Todd, Danwei Huang,  Nhung T.H.Nguyen, Megan I.Saunders, Rebecca K.Runting, Ryan J.Lowe, PaulaCartwright, James P.Gilmour, Catherine E.Lovelock
    One Earth

    Coastal areas are urbanizing rapidly, currently supporting >40% of the world's population. Yet, coastal cities are facing greater vulnerability to climate-change-related hazards, causing significant social and economic disruptions. Investing in the protection of existing coastal habitats is considered a low-cost nature-based solution with co-benefits for society and biodiversity. This study examines the global applicability of this solution across 5,096 coastal urban areas in tropical and subtropical regions.

    Published July 2021
    Read more
  • Nature-based engineering: a review on reducing coastal flood risk with mangroves

    Rik Gijsman, Erik M. Horstman, Daphne van der Wal, Daniel A. Friess, Andrew Swales, Kathelijne M. Wijnberg
    Frontiers in Marine Science

    Integration of mangroves in projects to reduce coastal flood risk is increasingly being recognised as a sustainable and cost-effective alternative. The implementation of mangroves in flood risk reduction, however, remains complex. This paper reviews existing evidence, monitoring techniques and modelling approaches from the viewpoint of mangrove functionality and persistence.

    Published July 2021
    Read more
  • Species awareness days: Do people care or are we preaching to the choir?

    Marcus A.H.Chua, AudreyTan, Luis Roman Carrasco
    Biological Conservation

    Biodiversity awareness days are awareness-raising interventions of increasing popularity, but what makes an awareness day campaign successful has been overlooked. This paper seeks to determine (1) if species or taxa awareness days led to awareness proxied by engagement for information, (2) if some awareness days were more effective than others, and the possible reasons for success, and (3) if awareness days led to positive conservation action.

    Published March 2021
    Read more
  • Future carbon emissions from global mangrove forest loss

    Maria F. Adame, Rod M. Connolly, Mischa P. Turschwell, Catherine E. Lovelock, Temilola Fatoyinbo, David Lagomasino, Liza A. Goldberg, Jordan Holdorf, Daniel A. Friess, Sigit D. Sasmito, Jonathan Sanderman, Michael Sievers, Christina Buelow, J. Boone Kauffman, Dale Bryan-Brown, Christopher J. Brown
    Global Change Biology

    Mangroves have among the highest carbon densities of any tropical forest. Incorporating mangroves into Nationally Determined Contributions to the Paris Agreement and their valuation on carbon markets requires predicting how the management of different land-uses can prevent future greenhouse gas emissions and increase CO2 sequestration. This paper integrates comprehensive global datasets for carbon stocks, mangrove distribution, deforestation rates, and land-use change drivers into a predictive model of mangrove carbon emissions.

    Published February 2021
    Read more
  • Artificial light at night advances spring phenology in the United States

    Qiming Zheng, Hoong Chen Teo, Lian Pin Koh
    Remote Sensing

    Plant phenology is closely related to light availability as diurnal and seasonal cycles are essential environmental cues for organizing bio-ecological processes. The natural cycles of light, however, have been dramatically disrupted by artificial light at night (ALAN) due to recent urbanization. The influence on plant phenology of ALAN and its spatial variation remain largely unknown. By analyzing satellite data on ALAN intensity across the United States, this paper showed that ALAN tended to advance the start date of the growing season (SOS), although the overall response of SOS to ALAN was relatively weak compared with other potential factors.

    Published January 2021
    Read more
  • Economic and social constraints on reforestation for climate mitigation in Southeast Asia

    Yiwen Zeng, Tasya Vadya Sarira, L. Roman Carrasco, Kwek Yan Chong, Daniel A. Friess, Janice Ser Huay Lee, Pierre Taillardat, Thomas A. Worthington, Yuchen Zhang, Lian Pin Koh
    Nature Climate Change

    As climate change continues to threaten human and natural systems, the search for cost-effective and practical mitigation solutions is gaining momentum. Reforestation has recently been identified as a promising nature-based climate solution. Yet there are context-dependent biophysical, financial, land-use and operational constraints to reforestation that demand careful consideration. This paper shows that 121 million ha of presently degraded land in Southeast Asia, a region noted for its significant reforestation potential, are biophysically suitable for reforestation.

    Published August 2020
    Read more

Filter by

Research Areas
Content Type