19/08/2022

jigolomall.com

The Mall Information

File requires an conclude to the luxurious way of living of the tremendous-wealthy

1. Johns Hopkins Center for Systems Science and Engineering COVID-19 dashboard. 2. UK Office for...
  • 1.
    • Johns Hopkins Center for Systems Science and Engineering

    COVID-19 dashboard.

  • 2.
    • UK Office for National Statistics

    Comparisons of all-cause mortality between European countries and regions: 2020. March 19, 2021.

  • 3.Pulse survey on continuity of essential health services during the COVID-19 pandemic: interim report. World Health Organization,
    Geneva2020
  • 4.
    • International Monetary Fund

    World economic outlook update, January 2021. International Monetary Fund,
    Washington, DC2021

  • 5.Poverty and shared prosperity 2020: reversals of fortune. World Bank,
    Washington, DC2020
  • 6.

    Averting catastrophic debt crises in developing countries. Extraordinary challenges call for extraordinary measures. Centre for Economic Policy and Research. July, 2020.

  • 7.
    • Philip SY
    • Kew SF
    • van Oldenborgh GJ
    • et al.

    Rapid attribution analysis of the extraordinary heatwave on the Pacific Coast of the US and Canada June 2021.

  • 8.
    • McCarthy M
    • Christidis N
    • Stott P
    • Kaye N

    Met Office: a review of the UK’s climate in 2020. Jan 12, 2021.

  • 9.
    • Stuart-Smith RF
    • Roe GH
    • Li S
    • Allen MR

    Increased outburst flood hazard from Lake Palcacocha due to human-induced glacier retreat.

    Nat Geosci. 2021; 14: 85-90

  • 10.
    • van Oldenborgh GJ
    • Krikken F
    • Lewis S
    • et al.

    Attribution of the Australian bushfire risk to anthropogenic climate change.

    Nat Hazards Earth Syst Sci Discuss. 2020; 2020: 1-46

  • 11.
    • Ciavarella A
    • Cotterill D
    • Stott P
    • et al.

    Siberian heatwave of 2020 almost impossible without climate change. July 15, 2020.

  • 12.Climate-related extreme weather events and COVID-19. A first look at the number of people affected by intersecting disasters. International Federation of Red Cross and Red Crescent Societies,
    Geneva2020
  • 13.
    • Dibley A
    • Wetzer T
    • Hepburn C

    National COVID debts: climate change imperils countries’ ability to repay.

    Nature. 2021; 592: 184-187

  • 14.
    • Intergovernmental Panel on Climate Change

    Global warming of 1·5°C. An IPCC Special Report on the impacts of global warming of 1·5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change. World Meteorological Organization,
    Geneva2018

  • 15.

    Climate change, human rights, and social justice.

    Ann Glob Health. 2015; 81: 310-322

  • 16.
    • Goddard Institute for Space Studies Surface Temperature Analysis Team

    GISS surface temperature analysis (GISTEMP v4).

  • 17.
    • Lenssen NJL
    • Schmidt GA
    • Hansen JE
    • et al.

    Improvements in the GISTEMP uncertainty model.

    J Geophys Res Atmos. 2019; 124: 6307-6326

  • 18.
    • National Oceanic and Atmospheric Administration

    More near-record warm years are likely on horizon. Feb 14, 2021.

  • 19.

    Mauna Loa carbon dioxide forecast for 2021.

  • 20.
    • Green JK
    • Seneviratne SI
    • Berg AM
    • et al.

    Large influence of soil moisture on long-term terrestrial carbon uptake.

    Nature. 2019; 565: 476-479

  • 21.
    • Lenton TM
    • Rockström J
    • Gaffney O
    • et al.

    Climate tipping points—too risky to bet against.

    Nature. 2019; 575: 592-595

  • 22.
    • Wunderling N
    • Donges JF
    • Kurths J
    • Winkelmann R

    Interacting tipping elements increase risk of climate domino effects under global warming.

    Earth Syst Dyn. 2021; 12: 601-619

  • 23.
    • International Energy Agency

    Global energy review 2021. International Energy Agency,
    Paris2021

  • 24.
    • Le Quéré C
    • Jackson RB
    • Jones MW
    • et al.

    Temporary reduction in daily global CO2 emissions during the COVID-19 forced confinement.

    Nat Clim Chang. 2020; 10: 647-653

  • 25.
    • Friedlingstein P
    • O’Sullivan M
    • Jones MW
    • et al.

    Global carbon budget 2020.

    Earth Syst Sci Data. 2020; 12: 3269-3340

  • 26.

    Global update: climate summit momentum.

  • 27.
    • Watts N
    • Adger WN
    • Ayeb-Karlsson S
    • et al.

    The Lancet Countdown: tracking progress on health and climate change.

    Lancet. 2017; 389: 1151-1164

  • 28.

    Human Development Report 2020. The next frontier: human development and the anthropocene.

  • 29.
    • Glazebrook T
    • Noll S
    • Opoku E

    Gender matters: climate change, gender bias, and women’s farming in the global south and north.

    Agriculture. 2020; 10: 1-25

  • 30.
    • Chingarande D
    • Huyer S
    • Lanzarini S
    • et al.

    Background paper on mainstreaming gender into national adaptation planning and implementation in sub-Saharan Africa. Consultative Group for International Agricultural Research Research Program on Climate Change, Agriculture and Food Security,
    Wageningen2020

  • 31.

    Gender and post-disaster reconstruction: the case of hurricane mitch in Honduras and Nicaragua.

  • 32.

    Gender, climate change and adaptation. Introduction to the gender dimensions. August, 2007.

  • 33.
    • Schipper ELF
    • Ensor J
    • Mukherji A
    • et al.

    Equity in climate scholarship: a manifesto for action.

    Clim Dev. 2021; ()

  • 34.
    • Ampaire EL
    • Acosta M
    • Huyer S
    • et al.

    Gender in climate change, agriculture, and natural resource policies: insights from East Africa.

    Clim Change. 2020; 158: 43-60

  • 35.Gender trouble: feminism and the subversion of identity. Routledge,
    New York, NY1990
  • 36.Gender. Palgrave Macmillan,
    London2003
  • 37.
    • Cornwall A
    • Harrison E
    • Whitehead A

    Gender myths and feminist fables: the struggle for interpretive power in gender and development.

    Dev Change. 2007; 38: 1-20

  • 38.

    Gender equality and women’s empowerment: a critical analysis of the Third Millennium Development Goal.

    Gend Dev. 2005; 13: 13-24

  • 39.Making women and girls visible: data for gender equality. United Nations Entity for Gender Equality and the Empowerment of Women,
    New York, NY2018
  • 40.

    Addressing gender issues through the production and use of gender-sensitive information.

    Afr Stat J. 2008; 7: 116-139

  • 41.Global gender gap report 2020. World Economic Forum,
    Geneva2019
  • 42.
    • McDougal L
    • Raj L
    • Yore A
    • et al.

    Strengthening gender measures and data in the COVID-19 era: an urgent need for change, 2021. United Nations Entity for Gender Equality and the Empowerment of Women,
    New York, NY2021

  • 43.

    Making every women and girl count: supporting the monitoring and implementation of the SDGs through better production and use of gender statistics. May, 2016.

  • 44.
    • Economic and Social Commission for Asia and the Pacific

    Work of the secretariat and partners on mainstreaming gender in environment statistics. Economic and Social Commission for Asia and the Pacific,
    Bangkok2020

  • 45.
    • Mbow CC
    • Rosenzweig LG
    • Barioni TG

    Food security. Climate change and land: an IPCC Special report on climate change, desertification, land degradation, sustainable land management, food security, and greenhouse gas fluxes in terrestrial ecosystems.

  • 46.
    • Caminade C
    • McIntyre KM
    • Jones AE

    Impact of recent and future climate change on vector-borne diseases.

    Ann N Y Acad Sci. 2019; 1436: 157-173

  • 47.
    • Semenza JC
    • Herbst S
    • Rechenburg A
    • et al.

    Climate change impact assessment of food- and waterborne diseases.

    Crit Rev Environ Sci Technol. 2012; 42: 857-890

  • 48.
    • Ali M
    • Nelson AR
    • Lopez AL
    • Sack DA

    Updated global burden of cholera in endemic countries.

    PLoS Negl Trop Dis. 2015; 9: e0003832

  • 49.

    Beggs PJ, Zhang Y, McGushin A. The 2021 report of the MJA—Lancet Countdown on health and climate change: Australia increasingly out on a limb. Med J Aust (in press).

  • 50.

    Cai W, Zhang C, Zhang S. The 2021 China report of the Lancet Countdown on health and climate change: seizing the window of opportunity. Lancet Public Health (in press).

  • 51.
    • Allen C
    • West R
    • Beagley J
    • McGushin A

    Climate change and health in small island developing states. The Lancet Countdown on Health and Climate Change. June, 2021.

  • 52.
    • Intergovernmental Panel on Climate Change

    Climate change 2014. Impacts, adaptation, and vulnerability. Working group II contribution to the fifth assessment report of the Intergovernmental Panel on Climate Change. Cambridge University Press,
    Cambridge2014

  • 53.
    • Watts N
    • Amann M
    • Arnell N
    • et al.

    The 2020 report of The Lancet Countdown on health and climate change: responding to converging crises.

    Lancet. 2021; 397: 129-170

  • 54.
    • Hayward G
    • Ayeb-Karlsson S

    ‘Seeing with empty eyes’: a systems approach to understand climate change and mental health in Bangladesh.

    Clim Change. 2021; 165: 29

  • 55.
    • Kelman I
    • Ayeb-Karlsson S
    • Rose-Clarke K
    • et al.

    A review of mental health and wellbeing under climate change in small island developing states (SIDS).

    Environ Res Lett. 2021; 16: 033007

  • 56.
    • Royal College of Psychiatrists

    PS03/21: our planet’s climate and ecological emergency. May, 2021.

  • 57.

    Cultural diversity and mental health: considerations for policy and practice.

    Front Public Health. 2018; 6: 179

  • 58.
    • Li M
    • Gu S
    • Bi P
    • Yang J
    • Liu Q

    Heat waves and morbidity: current knowledge and further direction-a comprehensive literature review.

    Int J Environ Res Public Health. 2015; 12: 5256-5283

  • 59.

    Heat stress and public health: a critical review.

    Annu Rev Public Health. 2008; 29: 41-55

  • 60.

    Relation between elevated ambient temperature and mortality: a review of the epidemiologic evidence.

    Epidemiol Rev. 2002; 24: 190-202

  • 61.
    • Schmeltz MT
    • Petkova EP
    • Gamble JL

    Economic burden of hospitalizations for heat-related illnesses in the United States, 2001–2010.

    Int J Environ Res Public Health. 2016; 13: 894

  • 62.
    • Hansen A
    • Bi L
    • Saniotis A
    • Nitschke M

    Vulnerability to extreme heat and climate change: is ethnicity a factor?.

    Glob Health Action. 2013; 6: 21364

  • 63.

    Global and cross-country analysis of exposure of vulnerable populations to heatwaves from 1980 to 2018.

    Clim Change. 2020; 163: 539-558

  • 64.

    Effectiveness of public health interventions in reducing morbidity and mortality during heat episodes: a structured review.

    Int J Environ Res Public Health. 2010; 7: 991-1001

  • 65.

    Heat and health. June 1, 2018.

  • 66.
    • World Meteorological Organization

    WMO catalogue of major meteorological hazards. 2021.

  • 67.
    • de Perez EC
    • van Aalst M
    • Bischiniotis K
    • et al.

    Global predictability of temperature extremes.

    Environ Res Lett. 2018; 13: 054017

  • 68.
    • Di Napoli C
    • Pappenberger F
    • Cloke HL

    Verification of heat stress thresholds for a health-based heat-wave definition.

    J Appl Meteorol Climatol. 2019; 58: 1177-1194

  • 69.
    • Arem H
    • Moore SC
    • Patel A
    • et al.

    Leisure time physical activity and mortality: a detailed pooled analysis of the dose-response relationship.

    JAMA Intern Med. 2015; 175: 959-967

  • 70.
    • Warburton DER
    • Nicol CW
    • Bredin SSD

    Health benefits of physical activity: the evidence.

    CMAJ. 2006; 174: 801-809

  • 71.
    • Nuzum H
    • Stickel A
    • Corona M
    • Zeller M
    • Melrose RJ
    • Wilkins SS

    Potential benefits of physical activity in MCI and dementia.

    Behav Neurol. 2020; 2020: 7807856

  • 72.
    • Peluso MAM
    • Guerra de Andrade LH

    Physical activity and mental health: the association between exercise and mood.

    Clinics (São Paulo). 2005; 60: 61-70

  • 73.
    • Zhang X
    • Li X
    • Sun Z
    • et al.

    Physical activity and COVID-19: an observational and Mendelian randomisation study.

    J Glob Health. 2020; 10: 020514

  • 74.
    • An R
    • Shen J
    • Li Y
    • Bandaru S

    Projecting the influence of global warming on physical activity patterns: a systematic review.

    Curr Obes Rep. 2020; 9: 550-561

  • 75.
    • Heaney AK
    • Carrión D
    • Burkart K
    • Lesk C
    • Jack D

    Climate change and physical activity: estimated impacts of ambient temperatures on bikeshare usage in New York City.

    Environ Health Perspect. 2019; 127: 37002

  • See also  What Does the Year Handle For India's Well being and health Sector?
  • 76.
    • Nazarian N
    • Liu S
    • Kohler M
    • et al.

    Project Coolbit: can your watch predict heat stress and thermal comfort sensation?.

    Environ Res Lett. 2021; 16: 034031

  • 77.
    • Andrews O
    • Le Quéré C
    • Kjellstrom T
    • Lemke B
    • Haines A

    Implications for workability and survivability in populations exposed to extreme heat under climate change: a modelling study.

    Lancet Planet Health. 2018; 2: e540-e547

  • 78.
    • Armstrong LE
    • Casa DJ
    • Millard-Stafford M
    • Moran DS
    • Pyne SW
    • Roberts WO

    American College of Sports Medicine position stand. Exertional heat illness during training and competition.

    Med Sci Sports Exerc. 2007; 39: 556-572

  • 79.
    • Casa DJ
    • DeMartini JK
    • Bergeron MF
    • et al.

    National Athletic Trainers’ Association position statement: exertional heat illnesses.

    J Athl Train. 2015; 50: 986-1000

  • 80.
    • Flouris AD
    • Dinas PC
    • Ioannou LG
    • et al.

    Workers’ health and productivity under occupational heat strain: a systematic review and meta-analysis.

    Lancet Planet Health. 2018; 2: e521-e531

  • 81.
    • International Labour Organization

    ILO Monitor: COVID-19 and the world of work. 7th edn. International Labour Organization,
    Geneva2021

  • 82.
    • International Labour Organization

    Working on a warmer planet: the impact of heat stress on labour productivity and decent work. International Labour Organization,
    Geneva2019

  • 83.
    • International Labour Organization

    Employment statistics.

  • 84.
    • International Labour Organization

    Indigenous peoples and climate change: from victims to change agents through decent work. International Labour Organization,
    Geneva2017

  • 85.
    • Obradovich N
    • Migliorini R
    • Paulus MP
    • Rahwan I

    Empirical evidence of mental health risks posed by climate change.

    Proc Natl Acad Sci USA. 2018; 115: 10953-10958

  • 86.

    Temperature and mental health: evidence from the spectrum of mental health outcomes.

    J Health Econ. 2019; 68: 102240

  • 87.
    • Burke M
    • González F
    • Baylis P
    • et al.

    Higher temperatures increase suicide rates in the United States and Mexico.

    Nat Clim Chang. 2018; 8: 723-729

  • 88.

    Crop-damaging temperatures increase suicide rates in India.

    Proc Natl Acad Sci USA. 2017; 114: 8746-8751

  • 89.

    Temperature and temperament: evidence from Twitter.

    J Public Econ. 2020; 184: 104161

  • 90.
    • Baylis P
    • Obradovich N
    • Kryvasheyeu Y
    • et al.

    Weather impacts expressed sentiment.

    PLoS One. 2018; 13: e0195750

  • 91.

    Social and economic impacts of climate.

    Science. 2016; 353: aad9837

  • 92.
    • Pennebaker JW
    • Boyd RL
    • Jordan K
    • Blackburn K

    The development and psychometric properties of LIWC2015. University of Texas,
    Austin, TX2015

  • 93.
    • Song X
    • Wang S
    • Hu Y
    • et al.

    Impact of ambient temperature on morbidity and mortality: an overview of reviews.

    Sci Total Environ. 2017; 586: 241-254

  • 94.
    • Honda Y
    • Kondo M
    • McGregor G
    • et al.

    Heat-related mortality risk model for climate change impact projection.

    Environ Health Prev Med. 2014; 19: 56-63

  • 95.
    • Guo Y
    • Gasparrini A
    • Armstrong BG
    • et al.

    Temperature variability and mortality: a multi-country study.

    Environ Health Perspect. 2016; 124: 1554-1559

  • 96.
    • Vos T
    • Lim SS
    • Abbafati C
    • et al.

    Global burden of 369 diseases and injuries in 204 countries and territories, 1990–2019: a systematic analysis for the Global Burden of Disease Study 2019.

    Lancet. 2020; 396: 1204-1222

  • 97.
    • Abatzoglou JT
    • Williams AP
    • Barbero R

    Global emergence of anthropogenic climate change in fire weather indices.

    Geophys Res Lett. 2019; 46: 326-336

  • 98.
    • US National Aeronautics and Space Administration EarthData

    Active fire data. May 12, 2020.

  • 99.
    • US National Aeronautics and Space Administration Socioeconomic Data and Applications Center

    Gridded population of the world GPW, v4.

  • 100.
    • Vitolo C
    • Di Giuseppe F
    • Barnard C
    • et al.

    ERA5-based global meteorological wildfire danger maps.

    Sci Data. 2020; 7: 216

  • 101.
    • Copernicus Emergency Management Service

    User guide.

  • 102.
    • Royal Commission into National Natural Disaster Arrangements

    Report, 2020. Oct 28, 2020.

  • 103.
    • Stanke C
    • Kerac M
    • Prudhomme C
    • Medlock J
    • Murray V

    Health effects of drought: a systematic review of the evidence.

    PLoS Curr. 2013; 5: 5

  • 104.

    SPI and SPEI. Jan 11, 2018.

  • 105.

    Illustrative analysis of probabilistic sea level rise hazard.

    J Clim. 2020; 33: 1523-1534

  • 106.
    • Iwamura T
    • Guzman-Holst A
    • Murray KA

    Accelerating invasion potential of disease vector Aedes aegypti under climate change.

    Nat Commun. 2020; 11: 2130

  • 107.
    • Ryan SJ
    • Carlson CJ
    • Mordecai EA
    • Johnson LR

    Global expansion and redistribution of Aedes-borne virus transmission risk with climate change.

    PLoS Negl Trop Dis. 2019; 13: e0007213

  • 108.
    • Hagenlocher M
    • Delmelle E
    • Casas I
    • Kienberger S

    Assessing socioeconomic vulnerability to dengue fever in Cali, Colombia: statistical vs expert-based modeling.

    Int J Health Geogr. 2013; 12: 36

  • 109.
    • Vincenti-Gonzalez MF
    • Grillet M-E
    • Velasco-Salas ZI
    • et al.

    Spatial analysis of dengue seroprevalence and modeling of transmission risk factors in a dengue hyperendemic city of Venezuela.

    PLoS Negl Trop Dis. 2017; 11: e0005317

  • 110.
    • Food and Agriculture Organization

    The state of food security and nutrition in the world. Food and Agriculture Organization,
    Rome2020

  • 111.

    Gender inequality and food insecurity: a dozen years after the food price crisis, rural women still bear the brunt of poverty and hunger.

    in: Cohen MJ Advances in food security and sustainability, vol 5. Academic Press,
    Cambridge, MA2020: 53-117

  • 112.

    Climate change and the flowering time of annual crops.

    J Exp Bot. 2009; 60: 2529-2539

  • 113.

    Food and Agriculture Organization of the UN. The food insecurity experience scale.

  • 114.
    • Food and Agriculture Organization

    The state of world fisheries and aquaculture 2020. Sustainability in action. Food and Agriculture Organization,
    Rome2020

  • 115.
    • Lynn K
    • Daigle J
    • Hoffman J
    • et al.

    The impacts of climate change on tribal traditional foods.

    Clim Change. 2013; 120: 545-556

  • 116.
    • Allison EH
    • Perry AL
    • Badjeck MC
    • et al.

    Vulnerability of national economies to the impacts of climate change on fisheries.

    Fish Fish (Oxf). 2009; 10: 173-196

  • 117.
    • Barange M
    • Bahri T
    • Beveridge MC
    • Cochrane KL
    • Funge-Smith S
    • Poulain F

    Impacts of climate change on fisheries and aquaculture: synthesis of current knowledge, adaptation and mitigation options. Food and Agriculture Organization,
    Rome2018

  • 118.
    • Food and Agriculture Organization

    New food balance sheets. April 14, 2021.

  • 119.
    • Pörtner H
    • Roberts D
    • Masson-Delmotte V
    • et al.

    IPCC Special Report on the ocean and cryosphere in a changing climate. Intergovernmental Panel on Climate Change,
    Geneva2019

  • 120.
    • Melet A
    • Meyssignac B
    • Almar R
    • Le Cozannet G

    Under-estimated wave contribution to coastal sea-level rise.

    Nat Clim Chang. 2018; 8: 234-239

  • 121.
    • Kirezci E
    • Young IR
    • Ranasinghe R
    • et al.

    Projections of global-scale extreme sea levels and resulting episodic coastal flooding over the 21st century.

    Sci Rep. 2020; 10: 11629

  • 122.
    • Le Bars D
    • Drijfhout S
    • de Vries H

    A high-end sea level rise probabilistic projection including rapid Antarctic ice sheet mass loss.

    Environ Res Lett. 2017; 12: 044013

  • 123.
    • Bakker AMR
    • Wong TE
    • Ruckert KL
    • Keller K

    Sea-level projections representing the deeply uncertain contribution of the west Antarctic ice sheet.

    Sci Rep. 2017; 7: 3880

  • 124.
    • Oak Ridge National Laboratory

    LandScan 2019.

  • 125.

    CoastalDEM: a global coastal digital elevation model improved from SRTM using a neural network.

    Remote Sens Environ. 2018; 206: 231-239

  • 126.

    Climate change impacts on water salinity and health.

    J Epidemiol Glob Health. 2011; 1: 5-10

  • 127.
    • Dvorak AC
    • Solo-Gabriele HM
    • Galletti A
    • et al.

    Possible impacts of sea level rise on disease transmission and potential adaptation strategies, a review.

    J Environ Manage. 2018; 217: 951-968

  • 128.
    • Schütte S
    • Gemenne F
    • Zaman M
    • Flahault A
    • Depoux A

    Connecting planetary health, climate change, and migration.

    Lancet Planet Health. 2018; 2: e58-e59

  • 129.
    • Dannenberg AL
    • Frumkin H
    • Hess JJ
    • Ebi KL

    Managed retreat as a strategy for climate change adaptation in small communities: public health implications.

    Clim Change. 2019; 153: 1-14

  • 130.
    • Ayeb-Karlsson S
    • Kniveton D
    • Cannon T

    Trapped in the prison of the mind: notions of climate-induced (im)mobility decision-making and wellbeing from an urban informal settlement in Bangladesh.

    Palgr Commun. 2020; 6: 62

  • 131.
    • Schwerdtle PN
    • McMichael C
    • Mank I
    • Sauerborn R
    • Danquah I
    • Bowen KJ

    Health and migration in the context of a changing climate: a systematic literature assessment.

    Environ Res Lett. 2020; 15: 103006

  • 132.
    • Ibn-Mohammed T
    • Mustapha KB
    • Godsell J
    • et al.

    A critical analysis of the impacts of COVID-19 on the global economy and ecosystems and opportunities for circular economy strategies.

    Resour Conserv Recycl. 2021; 164: 105169

  • 133.
    • Nicola M
    • Alsafi Z
    • Sohrabi C
    • et al.

    The socio-economic implications of the coronavirus pandemic (COVID-19): a review.

    Int J Surg. 2020; 78: 185-193

  • 134.
    • Independent Panel for Pandemic Preparedness and Response for the WHO Executive Board

    Second report on progress. January, 2021.

  • 135.
    • British Columbia Government News

    Chief coroner’s updated statement on public safety during heat wave. July 2, 2021.

  • 136.
    • Ebi KL
    • Boyer C
    • Bowen KJ
    • Frumkin H
    • Hess J

    Monitoring and evaluation indicators for climate change-related health impacts, risks, adaptation, and resilience.

    Int J Environ Res Public Health. 2018; 15: 1943

  • 137.WHO Health and Climate Change Survey report: tracking global progress. World Health Organization,
    Geneva2019
  • 138.Gender, climate change and health. World Health Organization,
    Geneva2014
  • 139.Mainstreaming gender in health adaptation to climate change programmes. World Health Organization,
    Geneva2012
  • 140.

    How COVID-19 is exposing ‘hidden poverty’ across unequal cities. World Economic Forum. Nov 4, 2020.

  • 141.
    • Sharifi A
    • Khavarian-Garmsir AR

    The COVID-19 pandemic: impacts on cities and major lessons for urban planning, design, and management.

    Sci Total Environ. 2020; 749: 142391

  • 142.

    Urban development. April 20, 2020.

  • 143.

    WHA73.1. COVID-19 response. May 19, 2020.

  • 144.
    • Wong MCS
    • Huang J
    • Wong SH
    • Yuen-Chun Teoh J

    The potential effectiveness of the WHO International Health Regulations capacity requirements on control of the COVID-19 pandemic: a cross-sectional study of 114 countries.

    J R Soc Med. 2021; 114: 121-131

  • 145.
    • Bouchama A
    • Dehbi M
    • Mohamed G
    • Matthies F
    • Shoukri M
    • Menne B

    Prognostic factors in heat wave related deaths: a meta-analysis.

    Arch Intern Med. 2007; 167: 2170-2176

  • 146.

    Proportion of disease caused or prevented by a given exposure, trait or intervention.

    Am J Epidemiol. 1974; 99: 325-332

  • 147.
    • Salamanca F
    • Georgescu M
    • Mahalov A
    • Moustaoui M
    • Wang M

    Anthropogenic heating of the urban environment due to air conditioning.

    J Geophys Res Atmos. 2014; 119: 5949-5965

  • 148.
    • Waite M
    • Cohen E
    • Torbey H
    • Piccirilli M
    • Tian Y
    • Modi V

    Global trends in urban electricity demands for cooling and heating.

    Energy. 2017; 127: 786-802

  • 149.
    • Randazzo T
    • De Cian E
    • Mistry MN

    Air conditioning and electricity expenditure: the role of climate in temperate countries.

    Econ Model. 2020; 90: 273-287

  • 150.
    • Mastrucci A
    • Byers E
    • Pachauri S
    • Rao ND

    Improving the SDG energy poverty targets: residential cooling needs in the Global South.

    Energy Build. 2019; 186: 405-415

  • 151.
    • Chen F
    • Kusaka H
    • Bornstein R
    • et al.

    The integrated WRF/urban modelling system: development, evaluation, and applications to urban environmental problems.

    Int J Climatol. 2011; 31: 273-288

  • 152.
    • Heaviside C
    • Cai XM
    • Vardoulakis S
    See also  Remedy plans for Clinical Despair: Treatment Alternatives for Answers for Despair

    The effects of horizontal advection on the urban heat island in Birmingham and the West Midlands, United Kingdom during a heatwave.

    Q J R Meteorol Soc. 2015; 141: 1429-1441

  • 153.
    • Heaviside C
    • Vardoulakis S
    • Cai XM

    Attribution of mortality to the urban heat island during heatwaves in the West Midlands, UK.

    Environ Health. 2016; 15: 27

  • 154.
    • Macintyre HL
    • Heaviside C
    • Taylor J
    • et al.

    Assessing urban population vulnerability and environmental risks across an urban area during heatwaves—implications for health protection.

    Sci Total Environ. 2018; 610: 678-690

  • 155.

    Potential benefits of cool roofs in reducing heat-related mortality during heatwaves in a European city.

    Environ Int. 2019; 127: 430-441

  • 156.
    • Macintyre HL
    • Heaviside C
    • Cai X
    • Phalkey R

    The winter urban heat island: impacts on cold-related mortality in a highly urbanized European region for present and future climate.

    Environ Int. 2021; 154: 106530

  • 157.
    • Macintyre HL
    • Heaviside C
    • Cai X
    • Phalkey R

    Comparing temperature-related mortality impacts of cool roofs in winter and summer in a highly urbanized European region for present and future climate.

    Environ Int. 2021; 154: 106606

  • 158.
    • He C
    • Zhao J
    • Zhang Y
    • et al.

    Cool roof and green roof adoption in a metropolitan area: climate impacts during summer and winter.

    Environ Sci Technol. 2020; 54: 10831-10839

  • 159.The future of cooling: opportunities for energy-efficient air conditioning. International Energy Agency,
    Paris2018
  • 160.
    • Hospers L
    • Smallcombe JW
    • Morris NB
    • Capon A
    • Jay O

    Electric fans: a potential stay-at-home cooling strategy during the COVID-19 pandemic this summer?.

    Sci Total Environ. 2020; 747: 141180

  • 161.
    • Kardan O
    • Gozdyra P
    • Misic B
    • et al.

    Neighborhood greenspace and health in a large urban center.

    Sci Rep. 2015; 5: 11610

  • 162.
    • Gascon M
    • Triguero-Mas M
    • Martínez D
    • et al.

    Residential green spaces and mortality: a systematic review.

    Environ Int. 2016; 86: 60-67

  • 163.

    Green streets: urban green and birth outcomes.

    Int J Environ Res Public Health. 2017; 14: e771

  • 164.
    • Aronson MF
    • Lepczyk CA
    • Evans KL
    • et al.

    Biodiversity in the city: key challenges for urban green space management.

    Front Ecol Environ. 2017; 15: 189-196

  • 165.
    • Knez I
    • Gunnarsson B
    • Hedblom M
    • Ode Sang Å

    Urban forestry & urban greening the effects of naturalness, gender, and age on how urban green space is perceived and used.

    Urban For Urban Green. 2016; 18: 268-276

  • 166.

    Analyzing the level of accessibility of public urban green spaces to different socially vulnerable groups of people.

    Sustainability. 2018; 10: 3917

  • 167.

    Gender differences in relationships between urban green space and health in the United Kingdom.

    Soc Sci Med. 2010; 71: 568-575

  • 168.
    • Schipperijn J
    • Ekholm O
    • Stigsdotter UK
    • et al.

    Landscape and urban planning factors influencing the use of green space: results from a Danish national representative survey.

    Landsc Urban Plan. 2010; 95: 130-137

  • 169.

    Effect of exposure to natural environment on health inequalities: an observational population study.

    Lancet. 2008; 372: 1655-1660

  • 170.
    • Geary RS
    • Wheeler B
    • Lovell R
    • Jepson R
    • Hunter R
    • Rodgers S

    A call to action: improving urban green spaces to reduce health inequalities exacerbated by COVID-19.

    Prev Med. 2021; 145: 106425

  • 171.Integrating health in urban and territorial planning. World Health Organization,
    Geneva2020
  • 172.

    Emissions gap report 2020. Dec 9, 2020.

  • 173.
    • Le Quéré C
    • Peters GP
    • Friedlingstein P
    • et al.

    Fossil CO2 emissions in the post-COVID-19 era.

    Nat Clim Chang. 2021; 11: 197-199

  • 174.Global economic prospects—June 2021. International Bank for Reconstruction and Development and The World Bank,
    Washington, DC2021
  • 175.Are we building back better? Evidence from 2020 and pathways to inclusive green recovery spending. United Nations Environment Programme,
    Geneva2021
  • 176.
    • Hepburn C
    • O’Callaghan B
    • Stern N
    • Stiglitz J
    • Zenghelis D

    Will COVID-19 fiscal recovery packages accelerate or retard progress on climate change?.

    Oxf Rev Econ Policy. 2020; 36: s359-s381

  • 177.

    Greenness of stimulus index. February, 2021.

  • 178.

    Unburnable carbon—are the world’s financial markets carrying a carbon bubble?. Carbon Tracker. July 13, 2011.

  • 179.
    • International Energy Agency

    After steep drop in early 2020, global carbon dioxide emissions have rebounded strongly. March 2, 2021.

  • 180.

    WHO Manifesto for a healthy recovery from COVID-19. May 26, 2020.

  • 181.Are we building back better? Evidence from 2020 and pathways for inclusive green recovery spending. United Nations Environment Programme,
    Nairobi2021
  • 182.
    • Hendryx M
    • Zullig KJ
    • Luo J

    Impacts of coal use on health.

    Annu Rev Public Health. 2020; 41: 397-415

  • 183.
    • Matthews HD
    • Tokarska KB
    • Nicholls ZRJ
    • et al.

    Opportunities and challenges in using remaining carbon budgets to guide climate policy.

    Nat Geosci. 2020; 13: 769-779

  • 184.
    • International Energy Agency

    World energy outlook 2020. International Energy Agency,
    Paris2020

  • 185.World health statistics 2021: monitoring health for the SDGs, sustainable development goals. World Health Organization,
    Geneva2021
  • 186.
    • Cozzi L
    • Contejean A
    • Samantar J
    • Dasgupta A
    • Rouget A
    • Arboleya L

    The COVID-19 crisis is reversing progress on energy access in Africa. International Energy Agency,
    Paris2020

  • 187.
    • Shupler M
    • Mwitari J
    • Gohole A
    • et al.

    COVID-19 lockdown in a Kenyan informal settlement: impacts on household energy and food security.

    medRxiv. 2020; ()

  • 188.

    People unable to keep their home adequately warm, 2019. Jan 6, 2021.

  • 189.
    • Kolokotsa D
    • Santamouris M

    Review of the indoor environmental quality and energy consumption studies for low income households in Europe.

    Sci Total Environ. 2015; 536: 316-330

  • 190.
    • Thomson H
    • Simcock N
    • Bouzarovski S
    • Petrova S

    Energy poverty and indoor cooling: an overlooked issue in Europe.

    Energy Build. 2019; 196: 21-29

  • 191.
    • International Energy Agency

    World extended energy balances, 2020 edition. International Energy Agency,
    Paris2021

  • 192.
    • Stoner O
    • Shaddick G
    • Economou T
    • et al.

    Global household energy model: a multivariate hierarchical approach to estimating trends in the use of polluting and clean fuels for cooking.

    Appl Stat. 2020; 69: 815-839

  • 193.Household energy database. World Health Organization,
    Geneva2021
  • 194.

    Air quality guidelines—global update 2005.

  • 195.
    • Bennitt FB
    • Wozniak SS
    • Causey K
    • Burkart K
    • Brauer M

    Estimating disease burden attributable to household air pollution: new methods within the Global Burden of Disease Study.

    Lancet Glob Health. 2021; 9: S18

  • 196.
    • Shupler M
    • Hystad P
    • Birch A
    • et al.

    Household and personal air pollution exposure measurements from 120 communities in eight countries: results from the PURE-AIR study.

    Lancet Planet Health. 2020; 4: e451-e462

  • 197.
    • Shupler M
    • Godwin W
    • Frostad J
    • Gustafson P
    • Arku RE
    • Brauer M

    Global estimation of exposure to fine particulate matter (PM2·5) from household air pollution.

    Environ Int. 2018; 120: 354-363

  • 198.

    A growing role for gender analysis in air pollution epidemiology.

    Environ Health Perspect. 2010; 118: 167-176

  • 199.

    Gender and energy for sustainable development.

    Curr Opin Environ Sustain. 2011; 3: 265-271

  • 200.
    • Gordon SB
    • Bruce NG
    • Grigg J
    • et al.

    Respiratory risks from household air pollution in low and middle income countries.

    Lancet Respir Med. 2014; 2: 823-860

  • 201.
    • Kurata M
    • Takahashi K
    • Hibiki A

    Gender differences in associations of household and ambient air pollution with child health: evidence from household and satellite-based data in Bangladesh.

    World Dev. 2020; 128: 104779

  • 202.

    Revision of the ambient air quality directives. May, 2021.

  • 203.

    Air pollution from road traffic contributed to girl’s death from asthma, coroner concludes.

    BMJ. 2020; 371: m4902

  • 204.
    • Murray CJL
    • Aravkin AY
    • Zheng P
    • et al.

    Global burden of 87 risk factors in 204 countries and territories, 1990–2019: a systematic analysis for the Global Burden of Disease Study 2019.

    Lancet. 2020; 396: 1223-1249

  • 205.
    • International Energy Agency

    Transport.

  • 206.
    • Hamilton I
    • Kennard H
    • McGushin A
    • et al.

    The public health implications of the Paris Agreement: a modelling study.

    Lancet Planet Health. 2021; 5: e74-e83

  • 207.
    • Goel R
    • Goodman A
    • Aldred R
    • et al.

    Cycling behaviour in 17 countries across 6 continents: levels of cycling, who cycles, for what purpose, and how far?.

    Transp Rev. 2021; ()

  • 208.

    Women slowly taking off: an investigation into female underrepresentation in commercial aviation.

    Res Transp Bus Manag. 2019; 31: 100378

  • 209.

    Mind the gap: gender differences in walkability, transportation and physical activity in urban India.

    J Transp Health. 2020; 18: 1-17

  • 210.

    The health implications of inequalities in travel.

    J Transp Health. 2014; 1: 202-209

  • 211.

    A review of transport organisations for female professionals and their impacts on the transport sector workforce.

    Res Transp Bus Manag. 2019; 31: 100379

  • 212.
    • Olsen JR
    • Mitchell R
    • Mutrie N
    • Foley L
    • Ogilvie D

    Population levels of, and inequalities in, active travel: a national, cross-sectional study of adults in Scotland.

    Prev Med Rep. 2017; 8: 129-134

  • 213.
    • International Energy Agency

    Global EV outlook 2020. June, 2020.

  • 214.
    • International Energy Agency

    Tracking transport 2020.

  • 215.
    • International Energy Agency

    Extended world energy balances. IEA world energy statistics and balances. International Energy Agency,
    Paris2021

  • 216.
    • International Energy Agency

    Changes in transport behaviour during the Covid-19 crisis. May 27, 2020.

  • 217.
    • International Energy Agency

    The COVID-19 crisis and clean energy progress. June, 2020.

  • 218.
    • Füzéki E
    • Schröder J
    • Carraro N
    • et al.

    Physical activity during the first COVID-19-related lockdown in Italy.

    Int J Environ Res Public Health. 2021; 18: 2511

  • 219.

    Cycling and COVID-19: why investments to boost cycling are important for a sustainable recovery. July 30, 2020.

  • 220.
    • Iannotti L
    • Tarawali S
    • Baltenweck I
    • et al.

    Livestock-derived foods and sustainable healthy diets. United Nations Nutrition Secretariat,
    Rome2021

  • 221.
    • Gerber PJ
    • Steinfeld H
    • Henderson B
    • et al.

    Tackling climate change through livestock—a global assessment of emissions and mitigation opportunities. Food and Agriculture Organization,
    Rome2013

  • 222.
    • Global Alliance for Improved Nutrition

    GAIN briefing paper series 2—animal-source foods for human and planetary health. Global Alliance for Improved Nutrition,
    Geneva2020

  • 223.
    • Food and Agriculture Organization

    Food balance sheets. April 14, 2021.

  • 224.
    • Wang H
    • Abbas KM
    • Abbasifard M
    • et al.

    Global age-sex-specific fertility, mortality, healthy life expectancy (HALE), and population estimates in 204 countries and territories, 1950–2019: a comprehensive demographic analysis for the Global Burden of Disease Study 2019.

    Lancet. 2020; 396: 1160-1203

  • 225.
    • Chai BC
    • Voort VDJR
    • Grofelnik K
    • Eliasdottir HG
    • Klöss I
    • Perez-cueto FJA

    Which diet has the least environmental impact on our planet? A systematic review of vegan, vegetarian and omnivorous diets.

    Sustainability. 2019; 11: 4110

  • 226.
    • Modlinska K
    • Adamczyk D
    • Maison D
    • Pisula W

    Gender differences in attitudes to vegans/vegetarians and their food preferences, and their implications for promoting sustainable dietary patterns—a systematic review.

    Sustainability. 2020; 12: 1-17

  • 227.
    • Rosenfeld DL
    • Rothgerber H
    • Tomiyama AJ

    Mostly vegetarian, but flexible about it: investigating how meat-reducers express social identity around their diets.

    Soc Psychol Personal Sci. 2020; 11: 406-415

  • See also  Knowledge Releases from Place of business of Wellness
  • 228.

    Gender differences in the association between dietary pattern and the incidence of hypertension in middle-aged and older adults.

    Nutrients. 2018; 10: E252

  • 229.
    • European Academies Science Advisory Council
    • Federation of European Academies of Medicine

    Decarbonisation of the health sector: a commentary by EASAC and FEAM. European Academies Science Advisory Council,
    Brussels2021

  • 230.

    Race to zero.

  • 231.

    Unburnable carbon 2013: wasted capital and stranded assets about the Grantham Research Institute on.

    Manag Environ Qual. 2013; 24: 1-40

  • 232.

    The geographical distribution of fossil fuels unused when limiting global warming to 2°C.

    Nature. 2015; 517: 187-190

  • 233.
    • Caldecott B
    • Tilbury J
    • Carey C

    Stranded assets and scenarios. January, 2014.

  • 234.
    • Curtin J
    • McInerney C
    • Ó Gallachóir B
    • Hickey C
    • Deane P
    • Deeney P

    Quantifying stranding risk for fossil fuel assets and implications for renewable energy investment: a review of the literature.

    Renew Sustain Energy Rev. 2019; 116: 109402

  • 235.
    • Leaton J
    • Fulton M
    • Spedding P
    • et al.

    The $2 trillion stranded assets danger zone: how fossil fuel firms risk destroying investor returns. Carbon Tracker Initiative.

  • 236.
    • Stockholm Environment Institute
    • International Institute for Sustainable Development
    • Overseas Development Institute
    • E3G
    • UN Environment Programme

    The production gap report: 2020 special report.

  • 237.

    2 degrees of separation: transition risk for oil & gas in a low carbon world. Carbon Tracker Initiative.

  • 238.
    • World Business Council for Sustainable Development
    • World Resources Institute

    Greenhouse gas protocol. A corporate accounting and reporting standard.

  • 239.

    Absolute Impact: why oil majors’ climate ambitions fall short of Paris limits. Carbon Tracker. June 24, 2020.

  • 240.
    • International Monetary Fund

    World economic outlook update. Managing divergent recoveries. April, 2021. International Monetary Fund,
    Washington, DC2021

  • 241.
    • Stringhini S
    • Carmeli C
    • Jokela M

    Socioeconomic status and the 25 × 25 risk factors as determinants of premature mortality: a multicohort study and meta-analysis of 1·7 million men and women.

    Lancet. 2017; 389: 1229-1237

  • 242.
    • International Labour Organization

    Statistics on wages. May 14, 2021.

  • 243.
    • Muriithi MK
    • Mutegi RG
    • Mwabu G

    Counting unpaid work in Kenya: gender and age profiles of hours worked and imputed wage incomes.

    J Econ Ageing. 2020; 17: 100120

  • 244.
    • Reddy AA
    • Mittal S
    • Roy NS
    • Kanjilal-Bhaduri S

    Time allocation between paid and unpaid work among men and women: an empirical study of Indian villages.

    Sustainability (Basel). 2021; 13: 17

  • 245.

    Labor market and unpaid works implications of COVID-19 for Bangladeshi women.

    Gend Work Organ. 2021; 28: 597-604

  • 246.
    • International Energy Agency

    Global energy & CO2 status report 2019. International Energy Agency,
    Paris2019

  • 247.
    • International Energy Agency

    World energy investment 2021. International Energy Agency,
    Paris2021

  • 248.
    • Hendryx M
    • Zullig KJ
    • Luo J

    Impacts of coal use on health.

    Annu Rev Public Health. 2020; 41: 397-415

  • 249.

    Green versus brown: comparing the employment impacts of energy efficiency, renewable energy, and fossil fuels using an input-output model.

    Econ Model. 2017; 61: 439-447

  • 250.
    • International Renewable Energy Agency

    Renewable energy: a gender perspective. International Renewable Energy Agency,
    Abu Dhabi2019

  • 251.

    The financial impact of fossil fuel divestment.

    Clim Policy. 2021; 21: 107-119

  • 252.

    Fossil fuel divestment strategies: financial and carbon-related consequences.

    Organ Environ. 2019; 32: 41-61

  • 253.

    Exxon Mobil defeated by activist investor Engine No 1. June 9, 2021.

  • 254.

    350.org. Divestment commitments.

  • 255.
    • International Energy Agency

    Energy subsidies—tracking the impact of fossil fuel subsidies.

  • 256.
    • Organisation for Economic Co-operation and Development

    OECD Inventory of support measures for fossil fuels. Aug 10, 2021.

  • 257.

    World Bank Carbon pricing dashboard.

  • 258.

    World Health Organization Global Health Expenditure Database.

  • 259.
    • Younger SD
    • Osei-Assibey E
    • Oppong F

    Fiscal incidence in Ghana.

    Rev Dev Econ. 2017; 21: e47-e66

  • 260.
    • Inter-agency Task Force on Financing for Development

    Financing for sustainable development report 2020. United Nations Department of Economic and Social Affairs,
    New York, NY2020

  • 261.
    • Mi Z
    • Zheng J
    • Meng J
    • et al.

    Economic development and converging household carbon footprints in China.

    Nat Sustain. 2020; 3: 529-537

  • 262.
    • Stadler K
    • Wood R
    • Bulavskaya T
    • et al.

    EXIOBASE 3: developing a time series of detailed environmentally extended multi-regional input-output tables.

    J Ind Ecol. 2018; 22: 502-515

  • 263.
    • Amann M
    • Kiesewetter G
    • Schöpp W
    • et al.

    Reducing global air pollution: the scope for further policy interventions.

    Philos Trans A Math Phys Eng Sci. 2020; 378: 20190331

  • 264.

    COVID-19 and global inequality.

    in: Carmody P Mccann G Colleran C O’Halloran C COVID-19 in the Global South 2020. Bristol University Press,
    Bristol2021: 161-173

  • 265.

    COVID-19 and human development: assessing the crisis, envisioning the recovery.

  • 266.

    Ahead of UN summit, leading scientists warn climate change ‘hitting harder and sooner’ than forecast. Sept 22, 2019.

  • 267.
    • Intergovernmental Panel on Climate Change

    Climate change: the IPCC response strategies report of the working group III. intergovernmental Panel on Climate Change,
    Geneva1990

  • 268.
    • Newman N
    • Fletcher R
    • Schulz A
    • Andy S
    • Nielsen RK

    Digital news report 2020. 9th edn. Reuters Institute for the Study of Journalism,
    Oxford2020

  • 269.
    • Barkemeyer R
    • Figge F
    • Hoepner A
    • Holt D
    • Kraak JM
    • Yu P-S

    Media coverage of climate change: an international comparison.

    Environ. 2017; 35: 1029-1054

  • 270.

    Addressing climate change: a media perspective.

    Env Polit. 2009; 18: 765-780

  • 271.Who speaks for the climate? Making sense of media reporting on climate change. Cambridge University Press,
    Cambridge2011
  • 272.

    Is Twitter just rehashing? Intermedia agenda setting between Twitter and mainstream media.

    J Inf Technol Polit. 2016; 13: 142-158

  • 273.

    Climate change in China: a study of news diversity in party-sponsored and market-oriented newspapers.

    Journalism. 2019; ()

  • 274.

    Measuring differences in the Chinese press: a study of People’s Daily and Southern Metropolitan Daily.

    Glob Media China. 2018; 3: 125-140

  • 275.

    Media framing and foreign policy: the elite press vis-à-vis US policy in Bosnia, 1992–95.

    J Peace Res. 2005; 42: 83-99

  • 276.

    Dividing climate change: global warming in the Indian mass media.

    Clim Change. 2010; 99: 1-16

  • 277.

    Balance as bias: global warming and the US prestige press.

    Glob Environ Change. 2004; 14: 125-136

  • 278.

    The top 500 sites on the Web.

  • 279.

    Big data and Wikipedia research: social science knowledge across disciplinary divides.

    Inf Commun Soc. 2015; 18: 1039-1056

  • 280.
    • Mesgari M
    • Okoli C
    • Mehdi M
    • Nielsen FÅ
    • Lanamäki A

    “The sum of all human knowledge”: a systematic review of scholarly research on the content of Wikipedia.

    J Assoc Inf Sci Technol. 2015; 66: 219-245

  • 281.

    Scientific peer review.

    Annu Rev Inform Sci Tech. 2011; 45: 197-245

  • 282.

    UN.UN General Debate of the 75th session of the General Assembly. 2021.

  • 283.

    General assembly.

    in: Daws S Weiss T The Oxford handbook on the United Nations. 2nd edn. Oxford University Press,
    Oxford2018

  • 284.

    The Paris Agreement.

  • 285.
    • Dasandi N
    • Graham H
    • Lampard P
    • Jankin Mikhaylov S

    Engagement with health in national climate change commitments under the Paris Agreement: a global mixed-methods analysis of the nationally determined contributions.

    Lancet Planet Health. 2021; 5: e93-101

  • 286.
    • Dasandi N
    • Graham H
    • Lampard P
    • Jankin Mikhaylov S

    Intergovernmental engagement on health impacts of climate change.

    Bull World Health Organ. 2021; 99: 102-111b

  • 287.
    • UN Framework Convention on Climate Change

    Paris Agreement. Dec 12, 2015.

  • 288.
    • UN Framework Convention on Climate Change

    UNFCCC NDC registry.

  • 289.

    Kenya’s updated nationally determined contribution (NDC) and JCM activities. Feb 16, 2021.

  • 290.

    The Republic of the Marshall Islands nationally determined contribution. Nov 22, 2018.

  • 291.

    Cambodia’s updated nationally determined contribution.

  • 292.Climate change, capitalism, and corporations: processes of creative self-destruction. Cambridge University Press,
    Cambridge2015
  • 293.
    • Covington H
    • Thornton J
    • Hepburn C

    Global warming: shareholders must vote for climate-change mitigation.

    Nature. 2016; 530: 156

  • 294.
    • Ekwurzel B
    • Boneham J
    • Dalton M
    • et al.

    The rise in global atmospheric CO2, surface temperature, and sea level from emissions traced to major carbon producers.

    Clim Change. 2017; 144: 579-590

  • 295.

    Assessing the outcome effectiveness of multi-stakeholder initiatives in the field of corporate social responsibility—the example of the United Nations Global Compact.

    J Clean Prod. 2018; 189: 775-784

  • 296.
    • Preet R
    • Nilsson M
    • Schumann B
    • Evengård B

    The gender perspective in climate change and global health.

    Glob Health Action. 2010; 3: 5720

  • 297.

    Gender differences in the climate change communication on Twitter.

    Internet Res. 2015; 25: 811-828

  • 298.
    • Mavisakalyan A
    • Tarverdi Y

    Gender and climate change: do female parliamentarians make difference?.

    Eur J Polit Econ. 2019; 56: 151-164

  • 299.

    Gender and climate change.

    Wiley Interdiscip Rev Clim Change. 2017; 8: e451

  • 300.
    • Koch-Baumgarten S
    • Voltmer K

    Introduction: mass media and public policy—is there a link?.

    in: Koch-Baumgarten S Voltmer K Public policy and the mass media: the interplay of mass communication and political decision making. Routledge,
    Abingdon-on-Thames2015: 1-15

  • 301.

    Sixty-first World Health Assembly. May, 2008.

  • 302.

    Coverage of climate change issues in Indian newspapers and policy implications.

    Curr Sci. 2015; 108: 1972-1973

  • 303.

    Heat waves in the age of climate change: longer, more frequent and more dangerous. The New York Times. June 18, 2019.

  • 304.

    Scientists link outbreaks such as Covid-19 to biodiversity loss. March 15, 2020.

  • 305.

    A Time to save the sick and rescue the planet. The New York Times. April 28, 2020.

  • 306.

    Internet encyclopaedias go head to head.

    Nature. 2005; 438: 900-901

  • 307.
    • Yoshida M
    • Arase Y
    • Tsunoda T
    • Yamamoto M

    Wikipedia page view reflects web search trend. Proceedings of the ACM Web Science Conference.

    Commun ACM. 2015; 65: 1-2

  • 308.

    Most popular edition of Wikipedia by country. March 2, 2021.

  • 309.

    Wikipedia page views by language over time. Feb 7, 2021.

  • 310.

    Popularity-driven science journalism and climate change: a critical discourse analysis of the unsaid.

    Discourse Context Media. 2018; 21: 73-81

  • 311.
    • Watts N
    • Amann M
    • Arnell N
    • et al.

    The 2018 report of the Lancet Countdown on health and climate change: shaping the health of nations for centuries to come.

    Lancet. 2018; 392: 2479-2514

  • 312.
    • Baturo A
    • Dasandi N
    • Mikhaylov SJ

    Understanding state preferences with text as data: Introducing the UN General Debate corpus.

    Polit Res Q. 2017; 4 ()

  • 313.
    • General Assembly of the UN

    General debate of the 75th Session 22 to 26 September and 29 September 2020.

  • 314.
    • General Assembly of the UN

    Seventy-fifth session. Agenda item 8. General debate. Jan 13, 2021.

  • 315.
    • General Assembly of the UN

    Seventy-fifth session. Agenda item 8. General debate. Jan 13, 2021.

  • 316.

    Global governance: CSR and the role of the UN Global Compact.

    J Bus Ethics. 2014; 122: 179-191