2024: Ano mais quente da história, ultrapassando 1,5°C acima dos níveis pré-industriais
O ano de 2024 será o mais quente já registrado, ultrapassando 1,5°C acima dos níveis pré-industriais, segundo o Copernicus e a OMM, baseado em dados de bilhões de medições globais, apontando para a urgência de ações climáticas mais ambiciosas.
2024: Ano mais quente da história, ultrapassando 1,5°C acima dos níveis pré-industriais
O ano de 2024 será o mais quente já registrado, ultrapassando 1,5°C acima dos níveis pré-industriais, segundo o Copernicus e a OMM, baseado em dados de bilhões de medições globais, apontando para a urgência de ações climáticas mais ambiciosas.
Progress
16% Bias Score
"2024 Exceeds 1.5-Degree Warming Threshold, Underscoring Climate Action Urgency"
"The year 2024 marks the first year exceeding the 1.5-degree Celsius global warming threshold above pre-industrial levels, with a 95% certainty according to the European climate monitoring service Copernicus, highlighting the urgency for increased climate action despite its absence in the current Ge...
"2024 Exceeds 1.5-Degree Warming Threshold, Underscoring Climate Action Urgency"
"The year 2024 marks the first year exceeding the 1.5-degree Celsius global warming threshold above pre-industrial levels, with a 95% certainty according to the European climate monitoring service Copernicus, highlighting the urgency for increased climate action despite its absence in the current Ge...
Progress
44% Bias Score
"Düşük Seviyeli Bulutlardaki Azalma, 2023'ün Rekor Sıcaklıklarını Açıklıyor"
"Alman bilim insanları, 2023'ün rekor sıcaklıklarının, Dünya'nın güneş ışığını yansıtma kapasitesindeki azalmadan, özellikle de düşük seviyeli bulutlardaki düşüşten kaynaklandığını buldular; bu durum, küresel ısınma üzerinde kalıcı bir etkiye sahip olabilir."
"Düşük Seviyeli Bulutlardaki Azalma, 2023'ün Rekor Sıcaklıklarını Açıklıyor"
"Alman bilim insanları, 2023'ün rekor sıcaklıklarının, Dünya'nın güneş ışığını yansıtma kapasitesindeki azalmadan, özellikle de düşük seviyeli bulutlardaki düşüşten kaynaklandığını buldular; bu durum, küresel ısınma üzerinde kalıcı bir etkiye sahip olabilir."
Progress
32% Bias Score
Ocean Cloud Cover Decline Amplified 2023's Record Heat
A new study reveals that record low levels of low-lying clouds over oceans significantly amplified 2023's record heat, contributing to a decreased planetary albedo and increased sunlight absorption, raising concerns about future warming projections.
Ocean Cloud Cover Decline Amplified 2023's Record Heat
A new study reveals that record low levels of low-lying clouds over oceans significantly amplified 2023's record heat, contributing to a decreased planetary albedo and increased sunlight absorption, raising concerns about future warming projections.
Progress
36% Bias Score
"Arctic Ocean Could Be Ice-Free by 2027: New Study"
"A new study using 300 climate models predicts the Arctic Ocean could be ice-free as early as late summer 2027, much sooner than previously anticipated, due to accelerated ice melt caused by greenhouse gas emissions; this will disrupt ecosystems and open new shipping routes."
"Arctic Ocean Could Be Ice-Free by 2027: New Study"
"A new study using 300 climate models predicts the Arctic Ocean could be ice-free as early as late summer 2027, much sooner than previously anticipated, due to accelerated ice melt caused by greenhouse gas emissions; this will disrupt ecosystems and open new shipping routes."
Progress
36% Bias Score
Low-Lying Clouds Identified as Key Factor in Record-Breaking Temperatures
Last year was the warmest year on record, partly due to the greenhouse effect and El Niño, but scientists have identified a lack of low-lying clouds above the oceans as a significant contributing factor, amplifying warming by increasing solar absorption and reducing reflection.
Low-Lying Clouds Identified as Key Factor in Record-Breaking Temperatures
Last year was the warmest year on record, partly due to the greenhouse effect and El Niño, but scientists have identified a lack of low-lying clouds above the oceans as a significant contributing factor, amplifying warming by increasing solar absorption and reducing reflection.
Progress
20% Bias Score
\"Record Heat of 2023 Linked to Decreased Cloud Cover\"
\"2023 marked the warmest year on record due to decreased low-level clouds over oceans, reducing Earth's albedo and increasing heat absorption, as revealed by a new study in Science.\"
\"Record Heat of 2023 Linked to Decreased Cloud Cover\"
\"2023 marked the warmest year on record due to decreased low-level clouds over oceans, reducing Earth's albedo and increasing heat absorption, as revealed by a new study in Science.\"
Progress
28% Bias Score
2024 on Track to be Warmest Year on Record, Exacerbating Climate Change Impacts
2024 is set to be the warmest year on record, exceeding even 2023, with global mean temperatures exceeding 1.5°C above pre-industrial levels for much of the year, impacting food production and leading to more extreme weather events.
2024 on Track to be Warmest Year on Record, Exacerbating Climate Change Impacts
2024 is set to be the warmest year on record, exceeding even 2023, with global mean temperatures exceeding 1.5°C above pre-industrial levels for much of the year, impacting food production and leading to more extreme weather events.
Progress
40% Bias Score
Arctic Ocean's First Ice-Free Day Predicted for 2027
A new study using over 300 computer models predicts the Arctic Ocean could see its first ice-free day as early as summer 2027, significantly earlier than previously forecast; this event is deemed inevitable, regardless of future emissions, and will have profound implications for the global climate a...
Arctic Ocean's First Ice-Free Day Predicted for 2027
A new study using over 300 computer models predicts the Arctic Ocean could see its first ice-free day as early as summer 2027, significantly earlier than previously forecast; this event is deemed inevitable, regardless of future emissions, and will have profound implications for the global climate a...
Progress
48% Bias Score
"Record Low Planetary Albedo in 2023 Contributed to 0.2°C Additional Warming"
"A record low in planetary albedo in 2023, caused by a decrease in low-level clouds primarily in northern mid-latitudes, the tropics, and the Atlantic, contributed to 0.2°C of additional warming beyond greenhouse gas and El Niño effects; researchers suggest a potential feedback loop between warming ...
"Record Low Planetary Albedo in 2023 Contributed to 0.2°C Additional Warming"
"A record low in planetary albedo in 2023, caused by a decrease in low-level clouds primarily in northern mid-latitudes, the tropics, and the Atlantic, contributed to 0.2°C of additional warming beyond greenhouse gas and El Niño effects; researchers suggest a potential feedback loop between warming ...
Progress
36% Bias Score
ICJ Hears Landmark Climate Case, Defining Nations' Legal Obligations
The International Court of Justice is hearing a landmark climate case brought by island nations, seeking clarification on countries' legal obligations to mitigate climate change and compensate vulnerable nations for its impacts, focusing on the legal responsibilities of major greenhouse gas emitting...
ICJ Hears Landmark Climate Case, Defining Nations' Legal Obligations
The International Court of Justice is hearing a landmark climate case brought by island nations, seeking clarification on countries' legal obligations to mitigate climate change and compensate vulnerable nations for its impacts, focusing on the legal responsibilities of major greenhouse gas emitting...
Progress
48% Bias Score
Ocean Cloud Decrease Amplified 2023's Record-Breaking Temperatures
A new study in Science attributes the unexpectedly high temperatures of last year partly to a decrease in low-level ocean clouds, which reduced the planet's albedo and amplified warming, potentially creating a dangerous feedback loop.
Ocean Cloud Decrease Amplified 2023's Record-Breaking Temperatures
A new study in Science attributes the unexpectedly high temperatures of last year partly to a decrease in low-level ocean clouds, which reduced the planet's albedo and amplified warming, potentially creating a dangerous feedback loop.
Progress
36% Bias Score