Karen C. Seto
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Detecting subpixel human settlements in mountains using deep learning: A case of the Hindu Kush Himalaya 1990–2020. Remote Sensing of Environment. 294:113625.
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2023. Quantification of the food-water-energy nexus in urban green and blue infrastructure: A synthesis of the literature. Resources, Conservation and Recycling. 188:106658.
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2023. Gender and authorship patterns in urban land science. Journal of Land Use Science. :1-17.
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2022. Infrastructure inequality is a characteristic of urbanizationSignificance. Proceedings of the National Academy of Sciences. 119(15)
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2022. Multi-hazard susceptibility and exposure assessment of the Hindu Kush Himalaya. Science of The Total Environment. 804:150039.
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2022. Satellite mapping of urban built-up heights reveals extreme infrastructure gaps and inequalities in the Global South. Proceedings of the National Academy of Sciences. 119(46)
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2022. Three decades of global trends in urban microwave backscatter, building volume and city GDP. Remote Sensing of Environment. 281:113225.
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2022. Urban land expansion: the role of population and economic growth for 300+ cities. npj Urban Sustainability. 2(1)
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2022. From Low- to Net-Zero Carbon Cities: The Next Global Agenda. Annual Review of Environment and Resources. 46(1):377-415.
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2021. Persistent Increases in Nighttime Heat Stress From Urban Expansion Despite Heat Island Mitigation. Journal of Geophysical Research: Atmospheres. 126(4)
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2021. Understanding and conceptualizing how urban green and blue infrastructure affects the food, water, and energy nexus: A synthesis of the literature. Journal of Cleaner Production. 289:125825.
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2021. Urbanization and agrobiodiversity: Leveraging a key nexus for sustainable development. One Earth. 4(11):1557-1568.
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2021. Who Is Vulnerable and Where Do They Live? Case Study of Three Districts in the Uttarakhand Region of India Himalaya Mountain Research and Development. 41(2)
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2021. Global spread of local cyclone damages through urban trade networks. Nature Sustainability.
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2020. A systematic review and assessment of algorithms to detect, characterize, and monitor urban land change. Remote Sensing of Environment. 242:111739.
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2020. Trends in urban land expansion, density, and land transitions from 1970 to 2010: a global synthesis. Environmental Research Letters. 15(4):044015.
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2020. Urbanization and food consumption in India. Scientific Reports. 10(1)
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2020. Building up or spreading out? Typologies of urban growth across 478 cities of 1 million+ Environmental Research Letters. 14(12):124077.
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2019. Characterizing urban infrastructural transitions for the Sustainable Development Goals using multi-temporal land, population, and nighttime light data. Remote Sensing of Environment. 234:111430.
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2019. Projecting global urban land expansion and heat island intensification through 2050. Environmental Research Letters. 14(11):114037.
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2019. Urban Land Use: Central to Building a Sustainable Future. One Earth. 1(2):168-170.
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2019. .
2018.
The importance of land governance for biodiversity conservation in an era of global urban expansion. Landscape and Urban Planning. 173:44-50.
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2018. Comparative evaluation of relative calibration methods for DMSP/OLS nighttime lights. Remote Sensing of Environment. 195:67-78.
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2017. Hidden linkages between urbanization and food systems. Science. 352(6288):943-945.
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2016. Meta-studies in land use science: Current coverage and prospects. Ambio. 45(1):15-28.
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2016. Roadmap towards justice in urban climate adaptation research. Nature Climate Change. 6(2):131-137.
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2016. A Robust Method to Generate a Consistent Time Series From DMSP/OLS Nighttime Light Data. IEEE Transactions on Geoscience and Remote Sensing. :1-11.
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2016. Spatializing 6,000 years of global urbanization from 3700 BC to AD 2000. Scientific Data. 3:160034.
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2016. Balancing urban growth and ecological conservation: A challenge for planning and governance in China. Ambio. 44(6):532-543.
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2015. Climate change: Track urban emissions on a human scale. Nature. 525(7568):179-181.
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2015. A conceptual framework for an urban areas typology to integrate climate change mitigation and adaptation. Urban Climate. 14:116-137.
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2015. Global typology of urban energy use and potentials for an urbanization mitigation wedge. Proceedings of the National Academy of Sciences. :201315545.
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2015. Systems integration for global sustainability. Science. 347(6225):1258832-1258832.
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2015. Central versus local states: Which matters more in affecting China's urban growth? Land Use Policy. 38:487-496.
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2014. The Influence of Foreign Direct Investment on Land Use Changes and Regional Planning in Developing-World Megacities: A Bangalore Case Study. Megacities: Our Global Urban Future. :81-97.
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2014. Supporting Global Environmental Change Research: A Review of Trends and Knowledge Gaps in Urban Remote Sensing. Remote Sensing. 6(5):3879-3905.
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2014. Urbanization and agricultural land loss in India: Comparing satellite estimates with census data. Journal of Environmental Management.
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2014. Can Night-Time Light Data Identify Typologies of Urbanization? A Global Assessment of Successes and Failures Remote Sensing. 5(7):3476-3494.
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2013. Does Size Matter? Scaling of CO2 Emissions and U.S. Urban Areas PLoS ONE. 8(6):e64727.
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2013. Evidence of urban land teleconnections and impacts on hinterlands. Current Opinion in Environmental Sustainability. 5(4):445–451.
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2013. Futures of global urban expansion: uncertainties and implications for biodiversity conservation. Environmental Research Letters. 8(1):014025.
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2013. A global fingerprint of macro-scale changes in urban structure from 1999 to 2009. Environmental Research Letters. 8(2):024004.
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2013. The impact of urban expansion on agricultural land use intensity in China. Land Use Policy. 35:33-39.
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2013. The impact of urbanization on water vulnerability: A coupled human–environment system approach for Chennai, India. Global Environmental Change. 23(1):229-239.
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2013. It's Time for an Urbanization Science. Environment: Science and Policy for Sustainable Development. 55(1):12-17.
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2013. Monitoring urbanization dynamics in India using DMSP/OLS night time lights and SPOT-VGT data. International Journal of Applied Earth Observation and Geoinformation. 23:49-61.
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2013. Remote sensing science to inform urban climate change mitigation strategies. Urban Climate. 3:1-6.
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2013. The Vegetation Adjusted NTL Urban Index: A new approach to reduce saturation and increase variation in nighttime luminosity. Remote Sensing of Environment. 129:32-41.
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2013.