paragraph 2.1.2.c (Q31): Difference between revisions
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(Created claim: has the IPCC statement (P3): Climate change has contributed to desertification and exacerbated land degradation, particularly in low lying coastal areas, river deltas, drylands and in permafrost areas.) |
(Created claim: has the IPCC statement (P3): Nearly 50% of coastal wetlands have been lost over the last 100 years, as a result of the combined effects of localised human pressures, sea level rise, warming and extreme climate events.) |
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Property / has the IPCC statement | |||||||
Nearly 50% of coastal wetlands have been lost over the last 100 years, as a result of the combined effects of localised human pressures, sea level rise, warming and extreme climate events. (English) | |||||||
Property / has the IPCC statement: Nearly 50% of coastal wetlands have been lost over the last 100 years, as a result of the combined effects of localised human pressures, sea level rise, warming and extreme climate events. (English) / rank | |||||||
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Property / has the IPCC statement: Nearly 50% of coastal wetlands have been lost over the last 100 years, as a result of the combined effects of localised human pressures, sea level rise, warming and extreme climate events. (English) / qualifier | |||||||
series ordinal: 10
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Property / has the IPCC statement: Nearly 50% of coastal wetlands have been lost over the last 100 years, as a result of the combined effects of localised human pressures, sea level rise, warming and extreme climate events. (English) / qualifier | |||||||
Revision as of 17:47, 23 April 2023
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Language | Label | Description | Also known as |
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English | paragraph 2.1.2.c |
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Statements
Climate change has caused substantial damages, and increasingly irreversible losses, in terrestrial, freshwater, cryospheric and coastal and open ocean ecosystems. (English)
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The extent and magnitude of climate change impacts are larger than estimated in previous assessments. (English)
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Approximately half of the species assessed globally have shifted polewards or, on land, also to higher elevations. (English)
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Biological responses including changes in geographic placement and shifting seasonal timing are often not sufficient to cope with recent climate change. (English)
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Hundreds of local losses of species have been driven by increases in the magnitude of heat extremes [..]. (English)
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Hundreds of local losses of species have been driven by increases in [..] and mass mortality events on land and in the ocean (English)
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Impacts on some ecosystems are approaching irreversibility such as the impacts of hydrological changes resulting from the retreat of glaciers, or the changes in some mountain [..] ecosystems driven by permafrost thaw. (English)
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Impacts on some ecosystems are approaching irreversibility such as the impacts of hydrological changes resulting from the retreat of glaciers, or the changes in some [..] Arctic ecosystems driven by permafrost thaw. (English)
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Impacts in ecosystems from slow-onset processes such as ocean acidification, sea level rise or regional decreases in precipitation have also been attributed to human-caused climate change. (English)
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Climate change has contributed to desertification and exacerbated land degradation, particularly in low lying coastal areas, river deltas, drylands and in permafrost areas. (English)
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Nearly 50% of coastal wetlands have been lost over the last 100 years, as a result of the combined effects of localised human pressures, sea level rise, warming and extreme climate events. (English)
0 references