Thanks @agu.org for highlighting this work!

Wow, special!! Bravo!

That’s an amazing picture! Where is it?

Wow Ben, this is great. 👏 thanks for sharing!

Thanks Ben!

I loved putting these thoughts into the world! Thanks @avnimalh0tra.bsky.social for the shout out!

We'll be hosting a session on #methane cycling & emissions across ecosystems again this year at #AGU2025! Submit your abstract by July 30 to join us in New Orleans for another year of great methane discussions! @drbenrunkle.bsky.social

agu.confex.com/agu/agu25/pr...

Bravo! 🥩 🍷

I enjoyed finding my group's research in a 🍚🌾 newsletter from @michelledavis.bsky.social - stirthepot.substack.com/p/welcome-to... She gave our findings on more sustainable, climate-smart rice production a nice "Hell Yes"! 💪

Overview of proximal remote sensing instruments at a flux tower site. Shown are three eddy-covariance towers with sonic anemometers collecting data to derive ecosystem fluxes. Shown for spectral reflectance and solar-induced fluorescence (SIF) is a hyperspectral sensor with a narrow field-of-view (FOV) and multi-directional scanning capabilities (Sections II.1 and II.2). We also show the direct emission of SIF from the forest canopy (Section II.2). For thermal infrared radiation, we show a fixed thermal camera and thermal radiation coming from the canopy (Section II.3). For microwave, we show two potential arrangements with antenna A receiving direct signals from under open-sky conditions as well as signals that are reflected from the underlying vegetated surface, and antenna B receiving a direct signal that is propagated downward through the vegetation canopy and attenuated by its moisture content (Section II.4). We also show a light detection and ranging (LiDAR) instrument emitting light to get a 3D representation of canopy structure (Section II.5). Above the forest are a drone, aircraft, and satellite to emphasize the potential of proximal remote sensing to complement observations across scales. In the inset plot, we show sample reflectance spectra for vegetation and wet soil and highlight key wavelength ranges for spectral reflectance. We also show typical SIF retrieval windows and LiDAR emission windows. Next to the reflectance spectra, we show sample radiance in the thermal infrared region, with example spectra for warm soil and cool vegetation. Finally, we show key measurement wavelength bands for microwave backscatter.

New Tansley review paper from Zoe Pierrat & friends in @newphyt.bsky.social linking proximal remote sensing with ecosystem fluxes!

Synergies and best practices for hyperspectral reflectance, SIF, thermal, microwave and lidar 🌈🌲🗼🛰️🧪
nph.onlinelibrary.wiley.com/doi/10.1111/...

🙋‍♂️🙋‍♂️🙋‍♂️🙋‍♂️

You are a gem, Becca!

Awesome! 👏

😆 very creative these universities!

Old Main at the University of Arkansas looked fantastic in this morning’s sunrise! 🌅

🫡

How great! Congrats Scott! 🍁

I've been loving the lack of email the last week or so! How to bring this energy into 2025?

🤣 perfect Lincoln! 👏 👏

Merry Christmas world! 🎅

hello world! 👋

Wow! 🌍 Over 30,000 attendees from around the globe joined us in Washington, D.C., and online to explore What’s Next for Science at #AGU24.

THANK YOU for an incredible week of collaboration and discovery! 🤝✨

We can’t wait to see you next year at #AGU25 in New Orleans! 🚀🌆

Here's our annual alumni meal photo at #agu24
The group cleaned up nicely, eh? Great to see everyone @jdfuentes.bsky.social @drbenrunkle.bsky.social @youngryel.bsky.social @vargaslab.bsky.social @jbfisher.bsky.social @arman-ahmadi.bsky.social @pattyoikawa.bsky.social @etechlab.bsky.social

This morning’s NYT Connections 💯 ✍️

The frozen soundtrack? ☃️

Ice ice baby? 🧊 🧊

Oui c’est ça!

Me at the Eiffel Tower!

Bonjour! 🇫🇷

4️⃣