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Publications Citing Human Dimensions Data
List of peer-reviewed publications that cite using Human Dimensions data.
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| Title | Year Sort ascending | Author | Topic | Dataset |
|---|---|---|---|---|
| Optimising LEO Gateway Placement for the People | Bhardwaj, Prince, Abubakar, Abdullahi K., Sastry, Nishanth | Population Size | ||
| Opposing <SUP>13</SUP>C and <SUP>15</SUP>N signatures in terrestrial and aquatic insects from Brazilian ecosystems by human disturbance | Augusto, Fernanda Gaudio, Abdalla Filho, Adibe Luiz, Diniz-Reis, Thais, Nardoto, Gabriela Bielefeld, Mastrangelo, Thiago, Martinelli, Luiz Antonio | Land Use/Land Cover, Anthropogenic/Human Influenced Ecosystems, Sustainability | ||
| On the relativity of urban location 1 | Portnov, Boris A. | Population | ||
| On the response of sea surface temperature to dust storms in the Arabian Gulf | Liu, Xiaohui, Wilson, Gregory, Lerczak, James, Garwood, Jessica C., Orben, Rachael A., Peck-Richardson, Adam, Piggott, Alexa, Bin Muzaffar, Sabir, Foster, Alexa D. | Atmospheric Radiation, Longwave Radiation, Shortwave Radiation, Radiative Flux, Radiative Forcing, Surface Radiative Properties, Albedo, Emissivity, Cloud Properties, Cloud Fraction, Cloud Optical Depth/Thickness, Skin Temperature, Skin Temperature, Sea Surface Skin Temperature, Aerosols, Aerosol Extinction, Aerosol Optical Depth/Thickness, Angstrom Exponent, Aerosol Particle Properties, Carbonaceous Aerosols, Dust/Ash/Smoke, Organic Particles, Sulfate Particles, Sulfur Oxides, Sulfur Compounds, Sulfate, Sulfur Dioxide, Sulfur Oxides, Particulate Matter, Dimethyl Sulfide, Black Carbon, Sea Salt, PARTICULATE MATTER (PM 2.5), PARTICULATE MATTER (PM 1.0), PARTICULATE MATTER (PM 10) | ||
| Modelling spatiotemporal concentrations of PM2. 5 over Nigerian cities using machine learning algorithms and open-source data | Abdulraheem, Khadijat Abdulkareem, Aina, Yusuf A., Mustapha, Ismail B., Adekunle, Bello Saheed, Jimoh, Haruna O., Adeniran, Jamiu Adetayo, Olaleye, Abdul Ademola, Hamid-Mosaku, Isa Adekunle, Nasiru, Aliyu Ishola, Abimbola, Ismaila, Olatunji, Sunday Olusanya | Particulate Matter, Particulates, Habitat Conversion/Fragmentation | ||
| Modelling the effects of climate change on shellfish production in marine artisanal fisheries of Ghana | Atindana, Sandra Akugpoka, Ofori-Danson, Patrick Kwabena, Brucet, Sandra | Environmental Impacts, Sea Level Rise, Water Resources, Food Security | ||
| Modelling vector and host distributions to inform potential disease risk: A case study of West Nile virus in the United Kingdom | Withers, Amy J., Croft, Simon, Budgey, Richard, Warren, Daniel A., Johnson, Nicholas | Population Estimates, Socioeconomics | ||
| Monitoring CO2 in diverse European cities: highlighting needs | Storm, Ida, Karstens, Ute, D'Onofrio, Claudio, Vermeulen, Alex, Hammer, Samuel, Super, Ingrid, Glauch, Theo, Peters, Wouter | Reflectance, Atmospheric Carbon Dioxide, Petroleum Production/Use, Industrial Emissions, Fossil Fuel Burning, Emissions, Transportation | ||
| Monitoring Water From Space: An Illustration in Death Valley, California | Buzzanga, B., Hamlington, B. D., Bekaert, D. P. S., Pavelsky, T., Handwerger, A., Bonnema, M., Lee, C. | Land Use/Land Cover, MECHANICAL DISTURBANCE, DISTURBANCE, Rivers/Streams, Surface Water Processes/Measurements, Lakes/Reservoirs, Precipitation, Precipitation Amount, Precipitation Rate, Snow, Rain |
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| Notable uncertainties in near real-time CO2 emission estimates in China | Hu, Hanwen, Geng, Guannan, Xu, Ruochong, Liu, Yang, Shi, Qinren, Xiao, Qingyang, Liu, Xiaodong, Zheng, Bo, Zhang, Qiang, He, Kebin | Population Size | ||
| Non-parametric spatiotemporal trends in fire: An approach to identify | Karami, Peyman, Tavakoli, Sajad | Burned Area, Fire Dynamics, Fire Occurrence | ||
| NitrateDriven Eutrophication Supports High Nitrous Oxide Production and Emission in Coastal Lagoons | Cheung, Henry L. S., Zilius, Mindaugas, Politi, Tobia, Lorre, Elise, VybernaiteLubiene, Irma, Santos, Isaac R., Bonaglia, Stefano | Population Density | ||
| Observational ozone datasets over the global oceans and polar regions (version 2024) | Kanaya, Yugo, Sommariva, Roberto, Saiz-Lopez, Alfonso, Mazzeo, Andrea, Koenig, Theodore K., Kawana, Kaori, Johnson, James E., Colomb, Aurelie, Tulet, Pierre, Molloy, Suzie, Galbally, Ian E., Volkamer, Rainer, Mahajan, Anoop, Halfacre, John W., Shepson, Paul B., Schmale, Julia, Angot, Helene, Blomquist, Byron, Shupe, Matthew D., Helmig, Detlev, Gil, Junsu, Lee, Meehye, Coburn, Sean C., Ortega, Ivan, Chen, Gao, Lee, James, Aikin, Kenneth C., Parrish, David D., Holloway, John S., Ryerson, Thomas B., Pollack, Ilana B., Williams, Eric J., Lerner, Brian M., Weinheimer, Andrew J., Campos, Teresa, Flocke, Frank M., Spackman, J. Ryan, Bourgeois, Ilann, Peischl, Jeff, Thompson, Chelsea R., Staebler, Ralf M., Aliabadi, Amir A., Gong, Wanmin, Van Malderen, Roeland, Thompson, Anne M., Stauffer, Ryan M., Kollonige, Debra E., Gomez Martin, Juan Carlos, Fujiwara, Masatomo, Read, Katie, Rowlinson, Matthew, Sato, Keiichi, Kurokawa, Junichi, Iwamoto, Yoko, Taketani, Fumikazu, Takashima, Hisahiro, Navarro-Comas, Monica, Panagi, Marios, Schultz, Martin G. | Biomass Burning, Halocarbons And Halogens, Trace Gases/Trace Species, Sulfur Compounds, Air Quality, Atmospheric Carbon Monoxide, Atmospheric Ozone, Non-methane Hydrocarbons/Volatile Organic Compounds, Fossil Fuel Burning, Industrial Emissions, Atmospheric Carbon Dioxide, Carbonaceous Aerosols | ||
| Public water risk concerns triggered by energy-transition-mineral mining | Lin, Zipeng, Wang, Peng, Tang, Linbin, Wang, Zilin, Mckechnie, Jon, Li, Bo, Chen, Wei-Qiang, Chan, Faith Ka Shun | Population | ||
| Promoting sustainable mining for health, food security and biodiversity conservation | Kwarteng Dofuor, Aboagye, Lutuf, Hanif, Quaigrane Duker, Rahmat, Edusei, George, Araba Otoo, Bernice, Osei-Owusu, Jonathan, Fathia Osabutey, Angelina, Obenewa Boateng, Belinda, Asante, Kwasi, Nyarko Osei, Joseph Harold, Kofi Loh, Seyram, Jnr Opoku, Maxwell, Fordjour Aidoo, Owusu | Agriculture Production, Environmental Governance/Management, Sustainability | ||
| Protected areas show substantial and increasing risk of wildfire globally | Resco de Dios, Victor, Cunill Camprubi, Angel, Campos-Arceiz, Ahimsa, Clarke, Hamish, He, Yingpeng, Zveushe, Obey K, Domenech, Rut, Ying, Han, Yao, Yinan | Fire Ecology, Biomass Burning, Wildfires, Fire Occurrence, Burned Area | ||
| Progress on the world's primate hotspots and coldspots: modeling ensemble super SDMs in cloud-computers based on digital citizen-science big data and 200+ ... | Steiner, Moriz, Huettmann, Falk | Land Use/Land Cover, Anthropogenic/Human Influenced Ecosystems, Sustainability | ||
| Projected increase in extreme heat exposure for vulnerable groups in late spring in China | Luo, Hao-Yue, Sun, Ying, Zhang, Yu-Xia | Population Estimates, Socioeconomics, Population | ||
| Quantifying European SF6 emissions from 2005 to 2021 using a large inversion ensemble | Vojta, Martin, Plach, Andreas, Thompson, Rona L., Purohit, Pallav, Stanley, Kieran, O'Doherty, Simon, Young, Dickon, Pitt, Joe, Arduini, Jgor, Lan, Xin, Stohl, Andreas | Population Density, Atmospheric Carbon Dioxide, Atmospheric Carbon Monoxide, Halocarbons And Halogens, Trace Gases/Trace Species, Methane, Carbon And Hydrocarbon Compounds | ||
| Quantifying Meltwater Contributions and Socio-Economy Impacts of Future | Liu, Hu, Wang, Lei, Chen, Deliang, Yao, Tandong, Bashir, Ahmad | Population Estimates, Socioeconomics, Crop/Plant Yields, Landscape Patterns, Cropland | ||
| Quantifying responsibility for cross-state air pollution: an airshed approach | Liao, Wenxu, Marcantonio, Richard, Crippa, Paola | Population Size | ||
| Projected malaria transmission risk under climate intervention in South Asia | Hussain, Athar, Latif, Muhammad, Shoaib, Muhammad, Khan, Varisha | Population Density | ||
| Projecting climate and socioeconomic contributions to global flood-induced displacements using a data-driven approach | Del Rio Amador, Lenin, Boudreault, Mathieu, Carozza, David A. | Population Estimates, Socioeconomics | ||
| Modeling of methyl hydroperoxide observations in urban and remote air over South Korea: Methylperoxy radical chemistry and inference of atmospheric methanediol | Yang, L. H., Jacob, D. J., Bates, K. H., Lin, H., Allen, H. M., Muller, J.F., Brown, S. S., Dang, R., Colombi, N. K., Zhai, S., Yantosca, R. M., Brewer, J. F., Ng, N. L., Crounse, J. D., Wennberg, P. O., Li, K., Liao, H. | Atmospheric Carbon Monoxide, Carbonaceous Aerosols, Air Quality, Trace Gases/Trace Species, Non-methane Hydrocarbons/Volatile Organic Compounds, Industrial Emissions, Fossil Fuel Burning, Biomass Burning, Atmospheric Carbon Dioxide, Sulfur Compounds, Halocarbons And Halogens, Atmospheric Ozone | ||
| Modeling resource consumption in the US air transportation system via minimum-cost percolation | Kim, Minsuk, Diggans, C. Tyler, Radicchi, Filippo | Population Density |