Satellite imagery reveals increasing volatility in human night-time activity

Tian Li; Zhuosen Wang; Christopher C.M. Kyba; Miguel O. Román; Karen C. Seto; Yun Yang; Shi Qiu; Theres Kuester; Michail Fragkias; Xiang Chen; Thomas H. Meyer; Chadwick D. Rittenhouse; Xiaonan Tai; Mari Cullerton; Falu Hong; Ashley Grinstead; Kexin Song; Ji Won Suh; Xiucheng Yang; Virginia L. Kalb; Chengbin Deng; Zhe Zhu

doi:10.1038/s41586-026-10260-w

Satellite imagery reveals increasing volatility in human night-time activity

Tian Li
, Zhuosen Wang
, Christopher C.M. Kyba
, Miguel O. Román
, Karen C. Seto
, Yun Yang
, Shi Qiu
, Theres Kuester
, Michail Fragkias
, Xiang Chen
, Thomas H. Meyer
, Chadwick D. Rittenhouse
, Xiaonan Tai
, Mari Cullerton
, Falu Hong
, Ashley Grinstead
, Kexin Song
, Ji Won Suh
, Xiucheng Yang
, Virginia L. Kalb

Chengbin Deng, Zhe Zhu

Economics Department

University of Connecticut
Cornell University
University of Maryland, College Park
NASA Goddard Space Flight Center
Ruhr University Bochum
Helmholtz Centre Potsdam - German Research Centre for Geosciences
Yale University
New Jersey Institute of Technology
University of Oklahoma

Research output: Contribution to journal › Article › peer-review

Abstract

Artificial light at night (ALAN) marks the global impact of humanity^1,2. Yet, our understanding of its true ebb and flow has been limited, often based on temporally aggregated satellite data that obscure finer dynamics. Here, using daily night-time satellite imagery³ and a continuous change detection approach^4,5, we created global maps of high-frequency ALAN dynamics (2014–2022). Our findings challenge the prevailing perspective that changes in light radiance are largely gradual and unidirectional. Instead, the nightlights of Earth are surprisingly dynamic, characterized by frequent and coexisting brightening and dimming. On average, each location experiencing change underwent 6.6 distinct shifts over the 9 years. Driven by this volatility, the cumulative area of total ALAN change comprised 2.05 million km² of abrupt changes and 19.04 million km² of gradual changes. Brightening contributed a radiance increase equivalent to 34% of the 2014 global baseline, whereas dimming offset this by 18%. Notably, both brightening and dimming have markedly intensified over the past decade. This evidence of increasing volatility in human night-time activity provides an important dynamic dimension for understanding urban evolution, energy transitions, policy impacts and ecological consequences of rapidly changing illuminated nights.

Original language	English
Pages (from-to)	379-386
Number of pages	8
Journal	Nature
Volume	652
Issue number	8109
DOIs	https://doi.org/10.1038/s41586-026-10260-w
State	Published - 9 Apr 2026

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Li, T., Wang, Z., Kyba, C. C. M., Román, M. O., Seto, K. C., Yang, Y., Qiu, S., Kuester, T., Fragkias, M., Chen, X., Meyer, T. H., Rittenhouse, C. D., Tai, X., Cullerton, M., Hong, F., Grinstead, A., Song, K., Suh, J. W., Yang, X., ... Zhu, Z. (2026). Satellite imagery reveals increasing volatility in human night-time activity. Nature, 652(8109), 379-386. https://doi.org/10.1038/s41586-026-10260-w

@article{69a259d7ba91424687ed412b2096939a,

title = "Satellite imagery reveals increasing volatility in human night-time activity",

abstract = "Artificial light at night (ALAN) marks the global impact of humanity1,2. Yet, our understanding of its true ebb and flow has been limited, often based on temporally aggregated satellite data that obscure finer dynamics. Here, using daily night-time satellite imagery3 and a continuous change detection approach4,5, we created global maps of high-frequency ALAN dynamics (2014–2022). Our findings challenge the prevailing perspective that changes in light radiance are largely gradual and unidirectional. Instead, the nightlights of Earth are surprisingly dynamic, characterized by frequent and coexisting brightening and dimming. On average, each location experiencing change underwent 6.6 distinct shifts over the 9 years. Driven by this volatility, the cumulative area of total ALAN change comprised 2.05 million km2 of abrupt changes and 19.04 million km2 of gradual changes. Brightening contributed a radiance increase equivalent to 34\% of the 2014 global baseline, whereas dimming offset this by 18\%. Notably, both brightening and dimming have markedly intensified over the past decade. This evidence of increasing volatility in human night-time activity provides an important dynamic dimension for understanding urban evolution, energy transitions, policy impacts and ecological consequences of rapidly changing illuminated nights.",

author = "Tian Li and Zhuosen Wang and Kyba, \{Christopher C.M.\} and Rom{\'a}n, \{Miguel O.\} and Seto, \{Karen C.\} and Yun Yang and Shi Qiu and Theres Kuester and Michail Fragkias and Xiang Chen and Meyer, \{Thomas H.\} and Rittenhouse, \{Chadwick D.\} and Xiaonan Tai and Mari Cullerton and Falu Hong and Ashley Grinstead and Kexin Song and Suh, \{Ji Won\} and Xiucheng Yang and Kalb, \{Virginia L.\} and Chengbin Deng and Zhe Zhu",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = apr,

day = "9",

doi = "10.1038/s41586-026-10260-w",

language = "English",

volume = "652",

pages = "379--386",

number = "8109",

}

Li, T, Wang, Z, Kyba, CCM, Román, MO, Seto, KC, Yang, Y, Qiu, S, Kuester, T, Fragkias, M, Chen, X, Meyer, TH, Rittenhouse, CD, Tai, X, Cullerton, M, Hong, F, Grinstead, A, Song, K, Suh, JW, Yang, X, Kalb, VL, Deng, C & Zhu, Z 2026, 'Satellite imagery reveals increasing volatility in human night-time activity', Nature, vol. 652, no. 8109, pp. 379-386. https://doi.org/10.1038/s41586-026-10260-w

TY - JOUR

T1 - Satellite imagery reveals increasing volatility in human night-time activity

AU - Li, Tian

AU - Wang, Zhuosen

AU - Kyba, Christopher C.M.

AU - Román, Miguel O.

AU - Seto, Karen C.

AU - Yang, Yun

AU - Qiu, Shi

AU - Kuester, Theres

AU - Fragkias, Michail

AU - Chen, Xiang

AU - Meyer, Thomas H.

AU - Rittenhouse, Chadwick D.

AU - Tai, Xiaonan

AU - Cullerton, Mari

AU - Hong, Falu

AU - Grinstead, Ashley

AU - Song, Kexin

AU - Suh, Ji Won

AU - Yang, Xiucheng

AU - Kalb, Virginia L.

AU - Deng, Chengbin

AU - Zhu, Zhe

PY - 2026/4/9

Y1 - 2026/4/9

N2 - Artificial light at night (ALAN) marks the global impact of humanity1,2. Yet, our understanding of its true ebb and flow has been limited, often based on temporally aggregated satellite data that obscure finer dynamics. Here, using daily night-time satellite imagery3 and a continuous change detection approach4,5, we created global maps of high-frequency ALAN dynamics (2014–2022). Our findings challenge the prevailing perspective that changes in light radiance are largely gradual and unidirectional. Instead, the nightlights of Earth are surprisingly dynamic, characterized by frequent and coexisting brightening and dimming. On average, each location experiencing change underwent 6.6 distinct shifts over the 9 years. Driven by this volatility, the cumulative area of total ALAN change comprised 2.05 million km2 of abrupt changes and 19.04 million km2 of gradual changes. Brightening contributed a radiance increase equivalent to 34% of the 2014 global baseline, whereas dimming offset this by 18%. Notably, both brightening and dimming have markedly intensified over the past decade. This evidence of increasing volatility in human night-time activity provides an important dynamic dimension for understanding urban evolution, energy transitions, policy impacts and ecological consequences of rapidly changing illuminated nights.

AB - Artificial light at night (ALAN) marks the global impact of humanity1,2. Yet, our understanding of its true ebb and flow has been limited, often based on temporally aggregated satellite data that obscure finer dynamics. Here, using daily night-time satellite imagery3 and a continuous change detection approach4,5, we created global maps of high-frequency ALAN dynamics (2014–2022). Our findings challenge the prevailing perspective that changes in light radiance are largely gradual and unidirectional. Instead, the nightlights of Earth are surprisingly dynamic, characterized by frequent and coexisting brightening and dimming. On average, each location experiencing change underwent 6.6 distinct shifts over the 9 years. Driven by this volatility, the cumulative area of total ALAN change comprised 2.05 million km2 of abrupt changes and 19.04 million km2 of gradual changes. Brightening contributed a radiance increase equivalent to 34% of the 2014 global baseline, whereas dimming offset this by 18%. Notably, both brightening and dimming have markedly intensified over the past decade. This evidence of increasing volatility in human night-time activity provides an important dynamic dimension for understanding urban evolution, energy transitions, policy impacts and ecological consequences of rapidly changing illuminated nights.

UR - https://www.scopus.com/pages/publications/105035377237

U2 - 10.1038/s41586-026-10260-w

DO - 10.1038/s41586-026-10260-w

M3 - Article

C2 - 41951967

AN - SCOPUS:105035377237

SN - 0028-0836

VL - 652

SP - 379

EP - 386

JO - Nature

JF - Nature

IS - 8109

ER -

Satellite imagery reveals increasing volatility in human night-time activity

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