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Terrestrial water storage over the Tibetan Plateau is projected to sustain large net declines by 2060. Excess water losses in the Amu Darya and Indus basins present the most critical threats of water supply shortage in this region. These results could inform adaptation strategies under future climate change.

Managing natural systems to mitigation climate change is a key strategy for limiting warming. In China, such natural climate solutions could offset 6% of CO₂ emissions during 2020–2030, contributing to mitigation goals but highlighting the importance of emissions reductions.

The Atlantic intertropical convergence zone can experience extreme northward shifts, with resultant precipitation changes. Model projections show the frequency of these extreme shifts will increase under climate change, driven by faster sea surface warming north of the Equator.

A comprehensive and systematic literature review reveals that over 58% of human pathogenic diseases are aggravated by climatic hazards that are sensitive to greenhouse gas emissions.

The Tibetan Plateau is an important source region of freshwater for large parts of Asia’s population. Here the authors quantify past and future terrestrial water-storage changes and find a large net loss in this region, with the Amu Darya and Indus basins as the most vulnerable hotspots.

Current greenhouse gas emissions will continue to affect the climate even after we reach net-zero emissions. We must understand how and prepare for a cooling planet.

A systematic review shows that >58% of infectious diseases confronted by humanity, via 1,006 unique pathways, have at some point been affected by climatic hazards sensitive to GHGs. These results highlight the mounting challenge for adaption and the urgent need to reduce GHG emissions.

US homes are large by any international standards. Full grid decarbonization and electrification of residential energy uses — along with extensive house renovation — are all required, but smaller homes could make this much easier to deliver.

Each year weather records are being broken around the globe; this boreal summer has seen heat records fall across Europe, America and Central Asia. These discernible effects of climate change cannot be ignored, as combined with global issues they endanger society and well-being.

Tiny phytoplankton are the base of ocean production and thus critical to carbon storage, carbon fluxes and living marine resources. Now, research suggests that the vertical migration of these organisms provides a previously under-recognized resiliency to climate warming.

The author investigates reproductive tradeoffs and contemporary selection of ocean acidification for a common coastal fish. Larvae are highly sensitive to acidification, with lower mortality for larger larvae, but effects are partially offset by tradeoffs between offspring size and number.

Phytoplankton vertical migration has a role in nutrient pumping and primary productivity in the oceans. Here the authors quantify the total amount of oceanic net primary productivity facilitated by this bio-pumping, under present and future warming conditions.

Ocean changes could affect the East Antarctic Ice Sheet and its contribution to sea level rise. Oceanographic observations off East Antarctica show substantial warming of mid-depth Circumpolar Deep Water, linked to poleward wind shifts, with implications for glacial melt and ice sheet stability.

Residential sector decarbonization is an essential part of mitigation, especially in the United States where per capita energy use is high by global standards. This article shows the emission reduction potential from individual and combined strategies applied to existing and new homes and to electricity supply.