Alejandro N. Flores
Boise State University
81 Papers
201 Citations
Alejandro N. Flores is an academic researcher from Boise State University. The author has contributed to research in topics: Precipitation & Snow. The author has an hindex of 17, co-authored 69 publications. Previous affiliations of Alejandro N. Flores include Massachusetts Institute of Technology & Colorado State University.
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Papers
Hillslope Hydrology in Global Change Research and Earth System Modeling
Ying Fan,Martyn P. Clark,David M. Lawrence,Sean Swenson,Lawrence E. Band,Susan L. Brantley,Paul D. Brooks,William E. Dietrich,Alejandro N. Flores,G. W. Grant,James W. Kirchner,D. S. Mackay,Jeffrey J. McDonnell,Paul C.D. Milly,Pamela L. Sullivan,Christina L. Tague,Hoori Ajami,Nathaniel W. Chaney,Andreas Hartmann,Andreas Hartmann,Pieter Hazenberg,James P. McNamara,Jon D. Pelletier,J. Perket,E. Rouholahnejad-Freund,Thorsten Wagener,Xubin Zeng,Edward Beighley,J. R. Buzan,Maoyi Huang,Ben Livneh,Binayak P. Mohanty,Bart Nijssen,Mohammad Safeeq,Mohammad Safeeq,Chaopeng Shen,W. J. van Verseveld,J. Volk,Dai Yamazaki +38 more
TL;DR: In this paper, the authors bring together hydrologists, critical zone scientists, and ESM developers to explore how hillslope structures may modulate ESM grid-level water, energy, and biogeochemical fluxes.
A simplified approach for estimating soil carbon and nitrogen stocks in semi-arid complex terrain
TL;DR: In this article, the authors investigated soil carbon and nitrogen distribution and developed a model, using readily available geospatial data, to predict that distribution across a mountainous, semi-arid, watershed in southwestern Idaho (USA).
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Snow distribution, melt and surface water inputs to the soil in the mountain rain–snow transition zone
Patrick R. Kormos,Patrick R. Kormos,Patrick R. Kormos,Danny Marks,James P. McNamara,Hans-Peter Marshall,Adam Winstral,Alejandro N. Flores +7 more
TL;DR: In this paper, the authors simulated the timing, magnitude and spatial distribution of snow cover and the resulting surface water inputs (SWI) at a small catchment located in the rain-snow transition zone of southwest Idaho, USA.
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Small soil storage capacity limits benefit of winter snowpack to upland vegetation
Tyler Smith,James P. McNamara,Alejandro N. Flores,Molly M. Gribb,Molly M. Gribb,Pam Aishlin,Shawn G. Benner +6 more
TL;DR: In this article, the authors investigated the contribution of winter precipitation to upland spring and summer soil moisture storage and availability in a semi-arid mountainous watershed and found that spring precipitation extends moist soil conditions by up to 90 days into the warm season, when ecological water demand is highest.
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Embracing the dynamic nature of soil structure: A paradigm illuminating the role of life in critical zones of the Anthropocene
Pamela L. Sullivan,Sharon A. Billings,Daniel R. Hirmas,Li Li,X. Zhang,Susan E. Ziegler,K. Murenbeeld,Hoori Ajami,A. Guthrie,Kamini Singha,Daniel Giménez,A. Duro,V. Moreno,Alejandro N. Flores,Alejandro Cueva,Koop,Emma L. Aronson,Holly R. Barnard,Steve A. Banwart,Rachel Keen,A. Nemes,Nikolaos P. Nikolaidis,Jesse B. Nippert,Daniel Richter,David Robinson,K. Sadayappan,L.F.T. de Souza,M. Unruh,H. Wen +28 more
TL;DR: In this article, a review of the nature of soil structure, focusing on its coevolution with the plants and microbes that live within the soil, and the degree to which these processes have been incorporated into flow and transport models, is presented.
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