Olivia
Online
Lingcheng_Li
@LingchengL
Earth Scientist @ PNNL
Joined March 2019
262 Following
135 Followers
53 Posts
Call for Abstracts! #AGU25 Session GC012: Bridging water systems from sky to sea ๐ง๐ฟ๐
Invited Speakers:
๐นDr. Reed Maxwell (Princeton)
๐นDr. George Xue (LSU)
๐
Submit by July 30
๐ New Orleans & Online | Dec 15โ19
๐ https://t.co/dHN3jRtbqj
#Hydrology #WaterScience
๐ Excited to join the Journal of Hydrology as an Associate Editor: https://t.co/9FypIgGaOb
Looking forward to supporting impactful hydrologic science.
๐ฌ About my research: https://t.co/xgT5E1MMBD
#Hydrology #EarthScience #AI4Climate #ExtremeEvents
https://t.co/o9kFZgtUwp
"๐ฟ๐Excited to share our latest work: Refining water and carbon flux modeling in terrestrial ecosystems with plant hydraulics integration! ๐ฟ๐ง Dive in to see how plant hydraulics reshape ET & GPP simulations globally! Read here: https://t.co/5JHVI5jYPG
Who to follow
Xiangzhong(Remi) Luo
@xiangzLuo
Asst. prof at National University of Singapore. Lost in the puzzles of terrestrial carbon pools and fluxes. Ecosystem Function Lab.
Tian Zhou
@tianzhou
Peirong Lin
@lin_peirong
Assistant Professor at Peking University; Born by the Nu River Grand Canyon; Passionate about rivers; Finding RS/GIS, data-driven methods, and models useful
1) Adding plant hydraulics into Noah-MP LSM enhances ET and GPP simulations across global ecosystems. 2) Explicitly modeling plant capacitance shows deep-layer and nocturnal root water uptake. 3) Sensitivity analysis reveals shifting importance of plant components across climates
Please check our new data for km-scale Earth system modeling (published a while ago). High-Resolution Land Surface Dataset Provides Earth System Modeling Details, https://t.co/UxiGigBIsc
Noah-MP-PHS significantly improves the simulation of evapotranspiration (ET) and gross primary production (GPP) by better representing atmospheric and soil water stress compared to traditional soil hydraulic schemes (SHSs, such as Noah and CLM)
Please check our new paper: Refining water and carbon fluxes modeling in terrestrial ecosystems via plant hydraulics integration at global FLUXNET sites https://t.co/5JHVI5jYPG
In this study, we implemented the recently developed Noah-Multiparameterization Land Surface Model (Noah-MP LSM) equipped with a plant hydraulics scheme (Noah-MP-PHS) across 40 FLUXNET sites globally
Iโm joining @UT_Dallas as an Assistant Professor starting January 1, 2025, and Iโm looking for 1โ2 #PhD students to join my lab to study Climate Dynamics and Prediction. Feel free to reach out, and retweets are appreciated!
๐ฃ Join us next week in a discussion on "Advancing Kilometer-Scale Land Surface Modeling using the E3SM Land Model: Developments and Case Studies" ft. Dr Lingcheng Li (PNNL)!
๐ 3-Oct-2024; 15:00 UTC
๐ https://t.co/jeaDoXv5bf
#DigitalEarths #ClimateScience
Please submit to H015 Advances in Integrated Water Continuum from Atmospheric Moisture to River! Invited speakers: Dr. Ashley Matheny (UT Austin) and Dr. Dennis Lettenmaier (UCLA)https://t.co/aIz7loe4ak #AGU24 @theAGU @Hydrology_AGU @AGUecohydro @AGUCatchHydro @AGU_GWHydro
Please submit to H014 Advances in Hyperresolution Land Surface Modeling to Better Address Global Change Challenges. Invited speakers: Dr. Ying Fan Reinfelder (Rutgers University) and Dr. Paul Bates (University of Bristol):https://t.co/Z49REs0IXR @theAGU @Hydrology_AGU @AGU_H3S
Excited to invite submissions to our AGU24 session: H015 - Advances in Integrated Water Continuum from Atmospheric Moisture to River Systems under Global Changes!
Submit here: https://t.co/aIz7loe4ak
#AGU24 @theAGU @Hydrology_AGU @AGUecohydro @AGUCatchHydro @AGU_GWHydro
Excited to invite submissions to our AGU24 session: H014 - Advances in Hyperresolution Land Surface Modeling to Better Address Global Change Challenges!
Submit here: https://t.co/KpY3fFSUg4
#AGU24 @theAGU
@Hydrology_AGU
@AGU_H3S
New data description paper: Global 1โkm land surface parameters for kilometer-scale Earth system modeling https://t.co/5AvBeKyVk5
Our paper on 1km surface dataset for supporting high-resolution (~1km) land surface modeling and Earth system modeling is out ๐๐๐! Led by @LingchengL and @GBISHT80 !
๐Excited to share our latest research on Global 1 km Land Surface Parameters for kilometer-scale Earth System Modeling. This study enhances the precision of simulations, meeting the emerging needs of k-scale LSM and ESM modeling.๐ฟ๐ฐ๏ธ @ResearchGate: https://t.co/MoJ3tSm88s
Integrating plant hydraulics in Noah-MP-PHS enhances ET/GPP simulation at global FLUXNET sites; Parameter importance shifts with aridity highlighting root/stem/leaf different roles; Simulated nocturnal uptake increases under dry conditions @ResearchGate: https://t.co/2Q9JVPlEJp
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