News Release

Sea level rise threatens larger number of people than earlier estimated

Peer-Reviewed Publication

Aalto University

Sea Level Rise Threatens Larger Number of People than Earlier Estimated

image: Rising sea level threatens larger number of people that earlier estimated. Shanghai with over 24 million inhabitants is one of the megacities that will suffer from the projected sea level rise and intensified storms. view more 

Credit: Olli Varis / Aalto University

More people live close to sea coast than earlier estimated, assess researchers in a new study. These people are the most vulnerable to the rise of the sea level as well as to the increased number of floods and intensified storms. By using recent increased resolution datasets, Aalto University researchers estimate that 1.9 billion inhabitants, or 28% of the world's total population, live closer than 100 km from the coast in areas less than 100 meters above the present sea level.

  • By 2050 the amount of people in that zone is predicted to increase to 2.4 billion, while population living lower than 5 meters will reach 500 million people. Many of these people need to adapt their livelihoods to changing climate, say Assistant Professor Matti Kummu from Aalto University.

    The study found that while population and wealth concentrate by the sea, food must be grown further and further away from where people live. Highlands and mountain areas are increasingly important from food production point of view, but also very vulnerable to changes in climate.

  • Over the past century there has been a clear tendency that cropland and pasture areas have grown most in areas outside the population hotspots, and decreased in coastal areas. This will most probably only continue in the future, summarises Professor Olli Varis from Aalto University.

Even though people and wealth continue to accumulate in coastal proximity, their growth is even faster in inland and mountainous areas, the study reveals. This contradicts the existing studies. In the future, the world will be less diverse in terms of urbanisation and economic output, when assessing it from geospatial point of view.

For the analysis, researchers used several global gridded datasets. They first created a geographic zoning in relation to the elevation and proximity to coast. This was then used to study the factors included in the study, which were grouped into five clusters: climate, population, agriculture, economy, and impact on environment. For the factors with temporal extent, the researchers also assessed their development over time period of 1900-2050.

###

The study was made in collaboration with researchers from Aalto University, Finland, the Vrije Universiteit Amsterdam, Netherlands, National Institute for Statistics, Italy, and University of Zurich, Switzerland.

Further information:

Matti Kummu
Assistant Professor
matti.kummu@aalto.fi
tel. +358 50 585 8679
Aalto University, Finland
https://people.aalto.fi/matti_kummu

Olli Varis
Professor
olli.varis@aalto.fi
Aalto University, Finland
https://people.aalto.fi/olli_varis

A press photo can be downloaded at http://materialbank.aalto.fi/public/dbec2b9bc872.aspx

Captions: Rising sea level threatens larger number of people that earlier estimated. Shanghai with over 24 million inhabitants is one of the megacities that will suffer from the projected sea level rise and intensified storms. Photo: Olli Varis / Aalto University

Tweets:

Sea level rise threatens larger number of people that earlier estimated #ClimateChange @AaltoUniversity 500 million people are predicted to live lower than 5 meters above current sea level by 2050 #ClimateChange @AaltoUniversity Population and economic growth is faster in inland and mountainous areas than in the coast @AaltoUniversity

Article:

Matti Kummu, Hans de Moel, Gianluigi Salvucci, Daniel Viviroli, Philip J Ward, Olli Varis. 2016. Over the hills and further away from coast: global geospatial patterns of human and environment over the 20th-21st centuries. Environmental Research Letters 11: 034010. http://dx.doi.org/10.1088/1748-9326/11/3/034010


Disclaimer: AAAS and EurekAlert! are not responsible for the accuracy of news releases posted to EurekAlert! by contributing institutions or for the use of any information through the EurekAlert system.