Quite happy to contribute to this project. See full report presented at #COP16 here:

Discover how our new dataset can help address deforestation linked to global food production (in the blog below). More information about the DeDuCE methodology (preprint), model and the dataset are available here:

📝 4 years of research. 🔎 50+ world experts from social + natural sciences. 🌍 safe and just boundaries to help us create a #SafeAndJust future. Explore #EarthSystemBoundaries with #PIK director @jrockstrom published today in @Nature https://t.co/hQelYzNNaF

📢EVENT | 12 June: Enabling a sustainability transition in tropical forests - Why, How and Who? Join us to explore the new #EU #Deforestation law #EUDR & locally driven paths towards sustainable & just transitions 👉 https://t.co/uCSOjKVveD @cec_lund

Now hiring 3 PhD students in Sustainability Science to do research on water resilience in the Anthropocene! Deadline: 24 April 2023. Warmly welcome to apply!

Interested in understanding the impact of #climate and #landuse changes on the adaptation of tropical forest ecosystems and their #resilience to hydroclimatic disturbances. Read my thesis at https://t.co/O7WBMQvnms (Def. on 27th Jan 2023 at @sthlmresilience @Stockholm_Uni )

The Brazilian Government has made a tourism ad ahead of the coming election and it’s surprisingly honest and informative! 🇧🇷 #Eleicoes2022 ✨ feat guest co-writing & voiceover by Sabrina Fernandes @safbf

|| NEW RESEARCH || Cerrado deforestation threatens regional climate and water availability for agriculture and ecosystems 📄 https://t.co/phoilMG4IQ

Doing your PhD with an emeritus

Natural forest regrowth may capture 1.08 Pg C /yr aboveground and 1.60 Pg C/yr belowground in a 30 years span. Those levels contrast with IPCC report, which estimated the potential C sequestration to be 32% lower. #inspiredTerrerLab https://t.co/37623oPgYS

Exceeding 1.5°C global warming could trigger multiple climate tipping points. First comprehensive analysis of likely temperature thresholds for all known climate tipping elements. Key result from my @ERC_Research project and the @Earthcommission

A planetary boundary for green water Perspective by @lan_wang et al. @sarahlizcornell @pgrevehydroclim @water_undergrnd @watersecurity @xuemeibai_aus @ferjarahydro @jrockstrom @ArieStaal @miinaporkka @sofieannawierik @Chandrakant___S https://t.co/mPpCEXqsFl

Most river basins in the world stop following their Budyko curves (relationship of energy and water limitation) under climate change, our new research shows. Led by @ferjaraHydro @Lui_piemontese, with @wberghuijs @PGreveHydroClim & Zhenqian Wang. OA:

The Delta #28 (22 June 2022) Soil moisture as a planetary boundary; unconventional water, unsustainable flood-plain water harvesting; 600 years of weather the west US; the World Bank on water infrastructure planning; looking after deltas; & much more. https://t.co/5zABmXrv0I

On the cover! A planetary boundary for green water 💧🌎 Perspective by @lan_wang et al. - free to read for 2 weeks, download now to read later! >> https://t.co/mPpCEXqsFl

Another planetary boundary has been transgressed, this time, it's fresh #water Argue @lan_wang et al in this Perspective https://t.co/mPpCEXr0uT Free-to-read: https://t.co/iHIsL4hBVU @sarahlizcornell @pgrevehydroclim @water_undergrnd @watersecurity @xuemeibai_aus @ferjaraHydro

Our new study @PIK_Climate @sthlmresilience, @UUCopernicus @UUGeo @BolinCentre, @wrmtudelft @lan_wang Press release here:

Green water (including terrestrial precipitation, evaporation & soil moisture) is being extensively perturbed at large scales. @lan_wang et al propose a green water planetary boundary and estimate its current status. https://t.co/mEPmGNUYTu free: https://t.co/9X7T2l66iO

The #Freshwater PB appears transgressed, based on our reassessment now out in @NatRevEarthEnv. Widespread increases and decreases in green water (plant-available water in soil) is increasing Earth System risks. Big thanks to all contributors! Read more: https://t.co/BWQ24V7lTu.

New study by @Chandrakant___S and colleagues in @GlobalChangeBio explains how rainforest trees' ability to store moisture in their roots is critical to the resilience of tropical forests. #remotesensing. #Congo Read more here: https://t.co/Ke7XKB3oMi