Toby M. Maxwell
University of Oregon
15 Papers
17 Citations
Toby M. Maxwell is an academic researcher from University of Oregon. The author has contributed to research in topics: Ecosystem & Biology. The author has an hindex of 5, co-authored 6 publications. Previous affiliations of Toby M. Maxwell include University of California, Davis.
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Papers
Reimagine fire science for the anthropocene.
Jacquelyn K. Shuman,Jennifer K. Balch,Rebecca T. Barnes,Philip E. Higuera,Christopher I. Roos,Dylan W. Schwilk,E. Natasha Stavros,Tirtha Banerjee,M. M. Bela,Jacob Bendix,Sandro Bertolino,Solomon Bililign,Kevin D. Bladon,Paulo M. Brando,Robert E. Breidenthal,Brian Buma,Donna Calhoun,Leila M. V. Carvalho,Megan E. Cattau,Kaelin M. Cawley,Sudeep Chandra,Melissa L. Chipman,Jeanette Cobian-Iñiguez,Erin Conlisk,Jonathan D. Coop,Alison C. Cullen,Kimberley T. Davis,Archana Dayalu,Fernando De Sales,Megan R. Dolman,Lisa M. Ellsworth,Scott E. Franklin,Christopher H. Guiterman,Matthew Hamilton,E. J. Hanan,Winslow D. Hansen,Stijn Hantson,Brian J. Harvey,Andrés Holz,Tao Huang,Matthew D. Hurteau,Nayani Ilangakoon,Megan K. Jennings,Charles Jones,Anna Klimaszewski-Patterson,Leda N. Kobziar,John S. Kominoski,Branko Kosovic,Meg A. Krawchuk,Paul Laris,John Leonard,S. Marcela Loría-Salazar,Melissa S. Lucash,Hussam Mahmoud,Ellis Q. Margolis,Toby M. Maxwell,Jessica L. McCarty,David B. McWethy,Rachel S. Meyer,Jessica R. Miesel,W. Keith Moser,R. Chelsea Nagy,Dev Niyogi,Hannah M. Palmer,Adam F. A. Pellegrini,B. Poulter,Kevin Robertson,Adrian V. Rocha,Mojtaba Sadegh,Fernanda Santos,Facundo Scordo,Joseph O. Sexton,A. S. Sharma,Alistair Smith,Amber J. Soja,C. J. Still,Tyson L. Swetnam,Alexandra D. Syphard,Morgan W. Tingley,Ali Tohidi,Anna T. Trugman,Merritt R. Turetsky,J. Morgan Varner,Yuhang Wang,Thea Whitman,Stephanie G. Yelenik,Xuan Zhang +86 more
TL;DR: In this article , the authors outline barriers and opportunities in the next generation of fire science and provide guidance for investment in future research and synthesize insights needed to better address the long-standing challenges of innovation across disciplines to promote coordinated research efforts; embrace different ways of knowing and knowledge generation; promote exploration of fundamental science; capitalize on the "firehose" of data for societal benefit; and integrate human and natural systems into models across multiple scales.
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Impact of root growth and hydraulic conductance on canopy carbon-water relations of young walnut trees (Juglans regia L.) under drought
Daniela Jerszurki,Valentin Couvreur,Valentin Couvreur,Toby M. Maxwell,Lucas C. R. Silva,Nicholas J. Matsumoto,Kenneth A. Shackel,Jorge Luiz Moretti de Souza,Jan W. Hopmans +8 more
TL;DR: In addition to soil characteristics, two plant traits control the supply of water from the soil to the canopy: root growth and plant hydraulic conductance as mentioned in this paper, and the impact of root growth on water uptake and transpiration of walnut under deficit irrigation.
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Using multielement isotopic analysis to decipher drought impacts and adaptive management in ancient agricultural systems
TL;DR: It is proposed that drought events over the last several millennia affected agricultural systems and triggered the development of irrigation technologies in ancient Near East settlements and is supported by carbon isotope (δ13C) measurements presented in Riehl et al.
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Two Decades of Experimental Manipulation Reveal Potential for Enhanced Biomass Accumulation and Water Use Efficiency in Ponderosa Pine Plantations Across Climate Gradients
TL;DR: A 20-year experiment was reported on the effects of climate variability and management in California's ponderosa pine plantations as discussed by the authors, where pine trees were grown in three different climatic and edaphic zones treated with herbicide to reduce competition from understory plants and/or fertilizer to stimulate growth, and they found that management increased tree growth and, in most but not all cases, the combination of understory suppression and fertilization stimulated productivity beyond the expected growth potential of each site.
15
A State Factor Model for Ecosystem Carbon-Water Relations.
TL;DR: An integrative framework is proposed to help in answering basic and applied questions pertaining to coupled carbon-water functions in a variety of ecosystems based on data from a globally representative set of ecosystems that hold vast amounts of carbon and provide water for rural and urban land uses.
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