Global land cover trajectories and transitions

Taher M Radwan,Peter M Atkinson,J Duncan Whyatt,G Alan Blackburn

doi:10.1038/s41598-021-92256-2

Abstract

Global land cover (LC) changes threaten sustainability and yet we lack a comprehensive understanding of the gains and losses of LC types, including the magnitudes, locations and timings of transitions. We used a novel, fine-resolution and temporally consistent satellite-derived dataset covering the entire Earth annually from 1992 to 2018 to quantify LC changes across a range of scales. At global and continental scales, the observed trajectories of change for most LC types were fairly smooth and consistent in direction through time. We show these observed trajectories in the context of error margins produced by extrapolating previously published accuracy metrics associated with the LC dataset. For many LC classes the observed changes were found to be within the error margins. However, an important exception was the increase in urban land, which was consistently larger than the error margins, and for which the LC transition was unidirectional. An advantage of analysing the global, fine spatial resolution LC time-series dataset is the ability to identify where and when LC changes have taken place on the Earth. We present LC change maps and trajectories that identify locations with high dynamism, and which pose significant sustainability challenges. We focused on forest loss and urban growth at the national scale, identifying the top 10 countries with the largest percentages of forest loss and urban growth globally. Crucially, we found that most of these ‘worst-case’ countries have stabilized their forest losses, although urban expansion was monotonic in all cases. These findings provide crucial information to support progress towards the UN’s SDGs.

Highlights

Global land cover (LC) changes threaten sustainability and yet we lack a comprehensive understanding of the gains and losses of LC types, including the magnitudes, locations and timings of transitions
All LC types, apart from urban, showed sizeable gross gains and losses, indicating that many areas of the globe experienced an expansion of these LC types while many other areas experienced a contraction
Most changes were smaller than the error margins associated with the ESACCI-LC dataset suggesting that there remains some uncertainty in determining the direction of the net changes of these LC types at the global scale

Summary

Introduction

Global land cover (LC) changes threaten sustainability and yet we lack a comprehensive understanding of the gains and losses of LC types, including the magnitudes, locations and timings of transitions. Major LC changes include urbanisation[3], agricultural land loss[4], agricultural land e xpansion5, deforestation6, afforestation[7] and d esertification[8] Such LC changes can have detrimental impacts on both environmental conditions[9] (e.g. by inducing pollution and climate change) and human a ctivities[10] (e.g. by compromising food security and economic development). Over the past two decades, several remote-sensing based LC mapping projects have been established, operating at a variety of s cales[17] These projects have generated LC datasets for different time periods and spatial resolutions, with varying classification schemes[16]. The latter is only available for the years 2000 and 2010

Methods

Results

Conclusion