Details of Award

NERC Reference : NE/P01156X/1

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Mapping ecological risks from the colour spectrum of artificial nighttime lighting using astronaut images of the earth

Grant Award

Principal Investigator:: Professor KJ Gaston, University of Exeter, Biosciences
Co-Investigator:: Dr JJ Bennie, University of Exeter, Geography
Grant held at:: University of Exeter, Biosciences

Science Area:: Terrestrial
Overall Classification:: Panel C

Science Classification details

ENRIs:: Biodiversity; Environmental Risks and Hazards; Global Change; Pollution and Waste
Science Topics:: Conservation Ecology; Population Ecology; Environmental Planning

Abstract:: Daily, lunar and seasonal cycles of natural light have occurred across the Earth's surface since the first emergence of life and are key features of the natural environment that have driven the development of biological phenomena from the molecule to the ecosystem. These natural patterns have, however, over the last 100 years come to be greatly disrupted through the introduction of artificial light into the nighttime environment. This disruption derives from a range of sources, including street lighting, advertising lighting, architectural lighting, security lighting, domestic lighting and vehicle lighting. Indeed, artificial nighttime lighting is already estimated to be experienced directly and indirectly (through skyglow - scattering by molecules or aerosols in the atmosphere of artificial nighttime light that is emitted or reflected upwards) by more than 20% of the global land area and to be growing at about 6% per year. Images of the earth at night acquired by satellites and manned space missions frequently illustrate the extent of the problem. The introduction of artificial light into the nighttime environment has provided significant and substantial benefits to humankind. But, given that biological systems are fundamentally shaped by light, there have inevitably been a wide array of environmental impacts. Studies have highlighted consequences of artificial nighttime light for the physiology, foraging, daily movements, migratory behaviour, reproduction, and mortality of individual organisms, for the abundance and distribution of species, and for the composition and functioning of communities. However, the spatial pattern and variation over time of these effects remain poorly understood. In major part this is because whilst the responses are commonly dependent on the different wavelengths of artificial nighttime lighting (perceived as colour), data on how this varies at geographic scales has largely been lacking. This means that it is difficult to identify those areas in which the environmental impacts of artificial lighting are of greatest concern and where attention to optimizing the trade-offs between human benefits and environmental impacts should be focused. This is particularly significant at a time of large scale and rapid introduction of new lighting technology and use of 'smart illumination'; many street and other lighting systems are moving to 'whiter' lights, commonly using light-emitting diodes (LEDs), and central management systems are increasingly enabling more flexible approaches to the implementation of public lighting. In this project we will resolve this problem, and determine the likely severity across Europe of an array of ecological impacts of artificial lighting of the nighttime environment using data from a novel and largely untapped source, the colour images taken using conventional SLR cameras by astronauts aboard the International Space Station.

Period of Award:: 1 Aug 2017 - 31 Jul 2021
Value:: £450,721

(FY details)

Authorised funds only

NERC Reference:: NE/P01156X/1
Grant Stage:: Completed
Scheme:: Standard Grant FEC
Grant Status:: Closed
Programme:: Standard Grant

This grant award has a total value of £450,721

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FDAB - Financial Details (Award breakdown by headings)

DI - Other Costs	Indirect - Indirect Costs	DA - Investigators	DA - Estate Costs	DI - Staff	DI - T&S	DA - Other Directly Allocated
£37,561	£111,737	£56,567	£39,299	£186,109	£12,358	£7,091

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