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Santa Catalina Critical Zone Observatory

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Journal Article
Published: 01 August 2011
Vadose Zone Journal (2011) 10 (3): 884–899.
... are addressing this issue using a theoretical framework that quantifies system inputs in terms of environmental energy and mass transfer (EEMT, MJ m −2 yr −1 ) in the recently established Jemez River Basin (JRB)–Santa Catalina Mountains (SCM) Critical Zone Observatory (CZO). We postulate that C and water fluxes...
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Journal Article
Journal: PALAIOS
Published: 01 September 2017
PALAIOS (2017) 32 (9): 620–638.
... assemblages of burrows (ichnocoenoses); and (5) develop a model of semiarid landscape ichnocoenoses and their associated soil properties. The study area is in the Santa Catalina Critical Zone Observatory located in the Sonoran Desert of southern Arizona, 32 km northeast of the city of Tucson (32°33.199...
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Image
The Jemez River Basin–<b>Santa</b> <b>Catalina</b> Mountains <b>Critical</b> <b>Zone</b> <b>Observatory</b> (J...
Published: 01 August 2011
Fig. 2. The Jemez River Basin–Santa Catalina Mountains Critical Zone Observatory (JRB-SCM CZO) comprises two research sites: (A) JRB in north-central New Mexico and SCM in southern Arizona; (B) digital elevation models of SCM and (C) the Valles Caldera in the JRB plotted on same color scale
Journal Article
Published: 01 August 2011
Vadose Zone Journal (2011) 10 (3): 781–785.
.... Breshears , T.E. Huxman , S.A. Kurc , K.A. Lohse , J.C. McIntosh , T. Meixner , M.G. Schaap , M.E. Litvak , J. Perdrial , A. Harpold , and M. Durcik . 2011 . How water, carbon, and energy drive critical zone evolution: The Jemez–Santa Catalina Critical...
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Journal Article
Published: 01 September 2016
Vadose Zone Journal (2016) 15 (9): vzj2016.06.0050.
.... Troch P.A. Rasmussen C. Brooks P.D. Pelletier J.D. Breshears D.D. . 2011 . How water, carbon, and energy drive Critical Zone evolution: The Jemez–Santa Catalina Critical Zone Observatory . Vadose Zone J. 10 : 884 – 899 . doi:10.2136/vzj2010.0132 Coopersmith E.J...
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Journal Article
Published: 01 August 2011
Vadose Zone Journal (2011) 10 (3): 974–987.
...; Pauline van Gaans; Willem van Riemsdijk; Tim White; Bin Zhang Abstract European Union policy on soil threats and soil protection has prioritized new research to address global soil threats. This research draws on the methodology of Critical Zone Observatories (CZOs) to focus a critical mass...
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Journal Article
Published: 01 January 2015
Vadose Zone Journal (2015) 14 (1): vzj2014.10.0142.
... services, which is needed to respond to impacts of changing climate and associated disturbances. This work was supported by the National Science Foundation for the Jemez River Basin–Santa Catalina Mountains Critical Zone Observatory (NSF-EAR-0724958 and NSF-EAR-1331408), with additional support from...
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Journal Article
Published: 01 November 2015
Vadose Zone Journal (2015) 14 (11): vzj2014.07.0102.
...Craig Rasmussen; Jon D. Pelletier; Peter A. Troch; Tyson L. Swetnam; Jon Chorover Abstract Critical zone evolution, structure, and function are driven by energy and mass fluxes into and through the terrestrial subsurface. We have developed an approach to quantifying the effective energy and mass...
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Journal Article
Published: 25 July 2017
Geochemistry: Exploration, Environment, Analysis (2018) 18 (1): 47–57.
... and the associated irrigation water have significant effects on the spatial distribution of the three metals in the critical zone (CZ). Iron exhibited greater transfer ability than manganese and lead, however it was mainly concentrated in the roots and sheath of the maize, rather than the seeds. The human health...
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Journal Article
Journal: GSA Bulletin
Published: 01 July 2000
GSA Bulletin (2000) 112 (7): 1067–1079.
...-dimensional seismo-tectonic imaging in the Transverse Ranges: The Santa Monica seismic zone (SMSZ) and evidence for a critical wedge [abs] : Eos (Transactions, American Geophysical Union) v. 77 p. F738 . Greene , H.G. , 1976 , Late Cenozoic geology of the Ventura basin, California...
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Journal Article
Published: 01 July 2014
Vadose Zone Journal (2014) 13 (7): vzj2013.10.0179.
.... This work was supported by National Science Foundation Grants EAR-0724958, EAR-1331408 for the Santa Catalina– Jemez Critical Zone Observatory, and DEB-0543130. We are grateful to three anonymous reviewers and Associate Editor Karsten Kalbitz, whose constructive comments significantly improved...
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Journal Article
Published: 01 June 2016
Vadose Zone Journal (2016) 15 (6): vzj2015.09.0128.
... and Critical Zone Observatory in southwestern Idaho ( Fig. 1 ). The watershed is 0.26 km 2 in extent, with an elevation range of 1840 to 2036 m asl, all underlain by basalt. Mean annual precipitation is approximately 426 mm, about 60% of which is snow. Streamflow is intermittent, with an average annual yield...
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Journal Article
Published: 01 January 2003
Reviews in Mineralogy and Geochemistry (2003) 52 (1): 493–531.
... arises from the behavior of U in the estuarine zone. The Amazon is one of the few major world rivers where estuarine U behavior has been studied. Early work suggested that significant U was released from Amazon shelf-sediments as salinity approached its open-ocean value during mixing. From the Amazon...
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Journal Article
Journal: GSA Bulletin
Published: 31 January 2019
GSA Bulletin (2019) 131 (7-8): 1333–1363.
... ultracataclasites developed in a zone of mixed-mode seismic/aseismic slip behavior that formed near the brittle-ductile transition along a frictionally strong, high-stress ramp at 10–12 km depth. The exhumed mafic mylonite zone narrows upward and probably deformed at strain rates of up to 2.1 × 10 –10 s –1 in its...
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Journal Article
Journal: Geophysics
Published: 02 December 2010
Geophysics (2010) 75 (6): F187–F197.
.... Simultaneous measurements were made for 4 h at the Tucson Alluvial Basin site and the Santa Catalina Mountain site on 12 July 2008. These two locations are separated by 27 km and the Santa Catalina Mountain site is east-northeast from the Tucson Alluvial Basin site. The recorded data...
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Journal Article
Journal: Geosphere
Published: 01 December 2005
Geosphere (2005) 1 (3): 147–172.
... of extension north and south of the Garlock fault, and large clockwise rotation of the Santa Ynez Mountains block ( Animation 1 ). The eastern California shear zone–Walker Lane belt is an ∼120-km-wide zone of right-lateral, intraplate shear east of the Sierra Nevada and San Andreas fault. Geodetically...
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Journal Article
Published: 01 September 2019
Reviews in Mineralogy and Geochemistry (2019) 85 (1): 381–418.
... using Flux-PIHM in the Shale Hills, a first order catchment in the Susquehanna Shale Hills Critical Zone Observatory (SSHCZO) in central Pennsylvania, U.S.A ( Brantley et al. 2018 ; Li et al. 2018 ). The mean annual temperature is 10°C with a mean annual precipitation of ~ 1000 mm. Extensive field...
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Journal Article
Journal: Geology
Published: 25 September 2018
Geology (2018) 46 (11): 955–958.
... to a low Mo concentration (0.62 nM), and the lightest δ 98 Mo value (Marshall Gulch, from the Santa Catalina Mountains and Jemez River Basin Critical Zone Observatory in Arizona) corresponded to the highest Mo concentration (81.11 nM; Table DR1). No consistent patterns were observed for Mo concentrations...
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Journal Article
Published: 01 November 2016
Bulletin of the Seismological Society of America (2016) 106 (6): 2419–2435.
... (16) and the Santa Fe Springs Oil Field section) L 17 1929/09 Catalina (33.63° N, 118.20° W) Offshore, estimated M w  4.0 N 18 1930/08 Santa Monica (33.99° N, 118.5° W) Damaging event, estimated M w  5.1; location uncertain Period of high production in Playa Del Rey field P 19...
Journal Article
Published: 27 November 2014
Journal of the Geological Society (2015) 172 (1): 9–27.
... by the detachment faults, which displace to east and west. All sections true scale (V = H). Many MCCs are bounded by detachments with opposing shear senses, which may or may not be coeval. The Santa Catalina core complex in Arizona is bounded by shear zones that displace away from the complex on either side...
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