L. Turin Dickman

5.1k citations

29 papers · 2.3k indexed · 1 hit paper · h-index 17

Global and Planetary Change top 1%
- Plant Water Relations and Carbon Dynamics 26
- Fire effects on ecosystems 4
Nature and Landscape Conservation top 1%
- Ecology and Vegetation Dynamics Studies 6
- Forest ecology and management 6
Atmospheric Science top 2%
- Tree-ring climate responses 17
Plant Science top 2%
- Plant responses to elevated CO2 6
- Plant responses to water stress 5
Ecological Modeling top 10%
Mechanical Engineering
- Tree Root and Stability Studies 1

Co-authors: Nate G. McDowell Sanna Sevanto William T. Pockman Robert E. Pangle Adam Collins Henry D. Adams Charlotte Grossiord Elizabeth Stockton
Cited by: Global and Planetary Change Nature and Landscape Conservation Atmospheric Science
Journals: Plant Cell & Environment (10 papers)Scientific Reports (2 papers)Nature Climate Change (2 papers)
Partner nations: United States Switzerland Spain

In The Last Decade

L. Turin Dickman

28 papers receiving 2.3k citations

Hit Papers

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Peers

Countries citing papers authored by L. Turin Dickman

Since Specialization

Citations

This map shows the geographic impact of L. Turin Dickman's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by L. Turin Dickman with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites L. Turin Dickman more than expected).

Fields of papers citing papers by L. Turin Dickman

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by L. Turin Dickman. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by L. Turin Dickman. The network helps show where L. Turin Dickman may publish in the future.

Co-authorship network

The 25 scholars most cited alongside L. Turin Dickman, linked wherever they have co-authored with each other. Click a name or a connecting line to browse the papers they share.

Border = papers with L. Turin Dickman Line = papers co-authored together L. Turin Dickman links everyone, so they are left out of the graph.

All Works

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20 of 20 papers shown

#	Work
1	ForestAlign: Automatic forest structure-based alignment for multi-view TLS and ALS point clouds Science of Remote Sensing ·Maria Teresa Fernández-Marrón,L. Turin Dickman,Patricia Schlagenhof,James Gattiker,Yong Hun Kim,E. Louise Loudermilk	2025	1
2	Increased water availability at various timescales has different effects on stomatal closure point in isohydric piñon pine and anisohydric juniper Scientific Reports ·Vachel A. Carter,L. Turin Dickman,Damião Santana,G. Honjo,J. Ray Green,Mary Sherhart,Sanna Sevanto	2025	0
3	Tree mortality after a spring fire: the role of reduced live leaf area in depletion of early growing season bole NSC Tree Physiology ·L. Turin Dickman	2024	2
4	Future climate doubles the risk of hydraulic failure in a wet tropical forest New Phytologist ·P. K. Thomas,Jeffrey Q. Chambers,Rutuja Chitra‐Tarak,Bradley Christoffersen,L. Turin Dickman,Rosie A. Fisher,Alexandra Jonko,Ryan Knox,Charles D. Koven,Lara M. Kueppers,Nate G. McDowell,Chonggang Xu	2024	8
5	Microbial Drivers of Plant Performance during Drought Depend upon Community Composition and the Greater Soil Environment Microbiology Spectrum ·R. W. Giblin,Kelsey Carter,F. J. P. Soler,Christina Steadman,宮下俊靖,Christine M. Anderson‐Cook,L. Turin Dickman,Brent D. Newman,John Dunbar,Sanna Sevanto,Michaeline Albright	2023	10
6	No carbon storage in growth-limited trees in a semi-arid woodland Nature Communications ·R. Alex Thompson,Henry D. Adams,David D. Breshears,Adam Collins,L. Turin Dickman,Charlotte Grossiord,Upaka Rathnayake,Drew Peltier,Michael G. Ryan,Amy M. Trowbridge,Nate G. McDowell	2023	19
7	Benefits of symbiotic ectomycorrhizal fungi to plant water relations depend on plant genotype in pinyon pine Scientific Reports ·Sanna Sevanto,Catherine A. Gehring,Damião Santana,G J Graham,Adrian Losko,Sven C. Vogel,Kelsey Carter,L. Turin Dickman,Michelle Espy,Cheryl R. Kuske	2023	4
8	Hydraulic architecture explains species moisture dependency but not mortality rates across a tropical rainfall gradient Biotropica ·Alexandria L. Pivovaroff,Brett T. Wolfe,Nate G. McDowell,Bradley Christoffersen,Stuart J. Davies,L. Turin Dickman,Charlotte Grossiord,Zhi-ming Wang,Alistair Rogers,Shawn Serbin,S. Joseph Wright‬,Jin Wu,Chonggang Xu,Jeffrey Q. Chambers	2021	9
9	Hotter droughts alter resource allocation to chemical defenses in piñon pine Oecologia ·Amy M. Trowbridge,Henry D. Adams,Adam Collins,L. Turin Dickman,Charlotte Grossiord,Megan L. Hofland,Srinivas Sadda,David K. Weaver,Sanna Sevanto,Paul C. Stoy,Nate G. McDowell	2021	24
10	Foliar respiration is related to photosynthetic, growth and carbohydrate response to experimental drought and elevated temperature Plant Cell & Environment ·Adam Collins,Michael G. Ryan,Henry D. Adams,L. Turin Dickman,Núria Garcia‐Forner,Charlotte Grossiord,Heath Powers,Sanna Sevanto,Nate G. McDowell	2021	15
11	The response of stomatal conductance to seasonal drought in tropical forests Global Change Biology ·Jin Wu,Shawn Serbin,Kim Ely,Brett T. Wolfe,L. Turin Dickman,Charlotte Grossiord,Sean T. Michaletz,Adam Collins,Matteo Detto,Nate G. McDowell,S. Joseph Wright‬,Alistair Rogers	2019	74
12	Homoeostatic maintenance of nonstructural carbohydrates during the 2015–2016 El Niño drought across a tropical forest precipitation gradient Plant Cell & Environment ·L. Turin Dickman,Nate G. McDowell,Charlotte Grossiord,Adam Collins,Brett T. Wolfe,Matteo Detto,S. Joseph Wright‬,Aida Rezaei,Devin W. Goodsman,Alistair Rogers,Shawn Serbin,Jin Wu,Kim Ely,Sean T. Michaletz,Chonggang Xu,Lara M. Kueppers,Jeffrey Q. Chambers	2018	37
13	Standardized protocols and procedures can precisely and accurately quantify non-structural carbohydrates Tree Physiology ·Simon M. Landhäusser,Pak S. Chow,L. Turin Dickman,Morgan E. Furze,Valentin S. Kroposhin,Abdu Kaimu Abullimiti,Julia Wiesenbauer,Birgit Wild,Gerd Gleixner,Henrik Hartmann,Günter Hoch,Nate G. McDowell,Andrew D. Richardson,Andreas Richter,Henry D. Adams	2018	203
14	Is desiccation tolerance and avoidance reflected in xylem and phloem anatomy of two coexisting arid‐zone coniferous trees? Plant Cell & Environment ·Sanna Sevanto,Damião Santana,L. Turin Dickman,Dominique Derome,Alessandra Patera,Thijs Defraeye,Robert E. Pangle,Patrick J. Hudson,William T. Pockman	2018	18
15	Stem radial growth and water storage responses to heat and drought vary between conifers with differing hydraulic strategies Plant Cell & Environment ·Upaka Rathnayake,Sanna Sevanto,Henry D. Adams,Adam Collins,L. Turin Dickman,Esteban Chirino,Juan Bellot,Nate G. McDowell	2018	15
16	Addendum: Multi-scale predictions of massive conifer mortality due to chronic temperature rise Nature Climate Change ·Nate G. McDowell,Park Williams,Chongyang Xu,William T. Pockman,L. Turin Dickman,Sanna Sevanto,Robert E. Pangle,Jean‐Marc Limousin,J. Plaut,D. S. Mackay,Jérôme Ogée,Jean‐Christophe Domec,Craig D. Allen,Rosie A. Fisher,Xiaoyan Jiang,J. D. Muss,David D. Breshears,Sara A. Rauscher,Charles D. Koven	2016	4
17	In vivo Observation of Tree Drought Response with Low-Field NMR and Neutron Imaging Frontiers in Plant Science ·Michael Malone,V GIMENEZ,Ирина Вячеславовна Зинченко,Michelle Espy,L. Turin Dickman,Ron Nelson,Sven C. Vogel,Lena Barshak,Sanna Sevanto	2016	16
18	Precipitation, not air temperature, drives functional responses of trees in semi‐arid ecosystems Journal of Ecology ·Charlotte Grossiord,Sanna Sevanto,Henry D. Adams,Adam Collins,L. Turin Dickman,英樹石川,Sean T. Michaletz,Elizabeth Stockton,Donald Tito,Nate G. McDowell	2016	98
19	Responses of two semiarid conifer tree species to reduced precipitation and warming reveal new perspectives for stomatal regulation Plant Cell & Environment ·Núria Garcia‐Forner,Henry D. Adams,Sanna Sevanto,Adam Collins,L. Turin Dickman,Patrick J. Hudson,Melanie Zeppel,Michael W. Jenkins,Heath Powers,Jordi Martínez‐Vilalta,Nate G. McDowell	2015	121
20	Multi-scale predictions of massive conifer mortality due to chronic temperature rise Nature Climate Change ·N. G. McDowell,Park Williams,Chonggang Xu,William T. Pockman,L. Turin Dickman,Sanna Sevanto,Robert E. Pangle,Jean‐Marc Limousin,J. Plaut,D. S. Mackay,Jérôme Ogée,Jean‐Christophe Domec,Craig D. Allen,Rosie A. Fisher,Xiaoyan Jiang,J. D. Muss,David D. Breshears,Sara A. Rauscher,Charles D. Koven	2015	313

About L. Turin Dickman

L. Turin Dickman is a scholar working on Global and Planetary Change, Atmospheric Science, Nature and Landscape Conservation, Plant Science and Geology, having authored 29 papers that have together received 2.3k indexed citations. Recurring topics across this work include Plant Water Relations and Carbon Dynamics (26 papers), Tree-ring climate responses (17 papers), Ecology and Vegetation Dynamics Studies (6 papers), Forest ecology and management (6 papers), Plant responses to elevated CO2 (6 papers), Plant responses to water stress (5 papers), Fire effects on ecosystems (4 papers) and Tree Root and Stability Studies (1 paper). The work is most often cited by research in Global and Planetary Change (1.9k citations), Nature and Landscape Conservation (900 citations), Atmospheric Science (1.0k citations), Plant Science (915 citations) and Ecological Modeling (65 citations). L. Turin Dickman has collaborated with scholars based in United States, Switzerland and Spain. Frequent co-authors include Nate G. McDowell, Sanna Sevanto, William T. Pockman, Robert E. Pangle, Adam Collins, Henry D. Adams, Charlotte Grossiord, Elizabeth Stockton, Patrick J. Hudson and Sean T. Michaletz. Their work appears in journals such as Plant Cell & Environment, Scientific Reports, Nature Climate Change, Tree Physiology and New Phytologist.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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