Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment

Juan Patricio Pesántez Vallejo; Christian Birkel; Stalin Mauricio Guamán Moromenacho; Mateo Jerves; Gabriel Gaona; Saúl Arciniega Esparza; Desneiges S. Murray; Rolando Célleri; Patricio  Javier Crespo Sanchez

doi:10.1002/hyp.15181

Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment

Juan Patricio Pesántez Vallejo (First Author)
, Christian Birkel
, Stalin Mauricio Guamán Moromenacho
, Mateo Jerves
, Gabriel Gaona
, Saúl Arciniega Esparza
, Desneiges S. Murray
, Rolando Célleri
, Patricio Javier Crespo Sanchez (Last Author)

University of New Hampshire
University of Costa Rica
Departamento de Recursos Hidricos y Ciencias Ambientales Universidad de Cuenca
Universidad de Cuenca, Facultad de Ingeniería
Universidad de Cuenca
Universidad Regional Amazónica Ikiam
Universidad Nacional Autónoma de México

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The visualization of dissolved organic carbon (DOC) spatial patterns can be a valuable tool for a comprehensive understanding of DOC production and transport processes within a catchment (Birkel et al., 2017; Pesántez, Birkel, Mosquera, et al., 2023; Wu et al., 2014). Visualizations of catchment fluxes, storages, and water ages, for instance, have already provided a key technique for enhancing our understanding of hydrological catchment functioning in various eco systems (Smith et al., 2022; Van Huijgevoort et al., 2016b). The Spa tially Distributed Tracer-Aided Rainfall-Runoff Model (STARR) offers the opportunity to represent hydrological processes, but also to incor porate tracers for validating hydrological processes (van Huijgevoort et al., 2016a), as highlighted below

Original language	English
Article number	e15181
Pages (from-to)	1-4
Number of pages	4
Journal	Hydrological Processes
Volume	38
Issue number	6
DOIs	https://doi.org/10.1002/hyp.15181
State	Published - Jun 2024

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10.1002/hyp.15181

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Pesántez Vallejo, J. P., Birkel, C., Guamán Moromenacho, S. M., Jerves, M., Gaona, G., Arciniega Esparza, S., Murray, D. S., Célleri, R., & Crespo Sanchez, P. J. (2024). Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment. Hydrological Processes, 38(6), 1-4. Article e15181. https://doi.org/10.1002/hyp.15181

@article{fcaddf22323b48fca6aadb368ce1d20b,

title = "Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment",

abstract = "The visualization of dissolved organic carbon (DOC) spatial patterns can be a valuable tool for a comprehensive understanding of DOC production and transport processes within a catchment (Birkel et al., 2017; Pes{\'a}ntez, Birkel, Mosquera, et al., 2023; Wu et al., 2014). Visualizations of catchment fluxes, storages, and water ages, for instance, have already provided a key technique for enhancing our understanding of hydrological catchment functioning in various eco systems (Smith et al., 2022; Van Huijgevoort et al., 2016b). The Spa tially Distributed Tracer-Aided Rainfall-Runoff Model (STARR) offers the opportunity to represent hydrological processes, but also to incor porate tracers for validating hydrological processes (van Huijgevoort et al., 2016a), as highlighted below",

keywords = "Dissolved organic carbon (DOC), Soil DOC, DOC transport, DOC production, Organic carbon production, Catchment",

author = "\{Pes{\'a}ntez Vallejo\}, \{Juan Patricio\} and Christian Birkel and \{Guam{\'a}n Moromenacho\}, \{Stalin Mauricio\} and Mateo Jerves and Gabriel Gaona and \{Arciniega Esparza\}, Sa{\'u}l and Murray, \{Desneiges S.\} and Rolando C{\'e}lleri and \{Crespo Sanchez\}, \{Patricio Javier\}",

year = "2024",

month = jun,

doi = "10.1002/hyp.15181",

language = "Ingl{\'e}s",

volume = "38",

pages = "1--4",

journal = "Hydrological Processes",

issn = "0885-6087",

number = "6",

}

Pesántez Vallejo, JP, Birkel, C, Guamán Moromenacho, SM, Jerves, M, Gaona, G, Arciniega Esparza, S, Murray, DS, Célleri, R & Crespo Sanchez, PJ 2024, 'Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment', Hydrological Processes, vol. 38, no. 6, e15181, pp. 1-4. https://doi.org/10.1002/hyp.15181

Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment. / Pesántez Vallejo, Juan Patricio (First Author); Birkel, Christian; Guamán Moromenacho, Stalin Mauricio et al.
In: Hydrological Processes, Vol. 38, No. 6, e15181, 06.2024, p. 1-4.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment

AU - Pesántez Vallejo, Juan Patricio

AU - Birkel, Christian

AU - Guamán Moromenacho, Stalin Mauricio

AU - Jerves, Mateo

AU - Gaona, Gabriel

AU - Arciniega Esparza, Saúl

AU - Murray, Desneiges S.

AU - Célleri, Rolando

AU - Crespo Sanchez, Patricio Javier

PY - 2024/6

Y1 - 2024/6

N2 - The visualization of dissolved organic carbon (DOC) spatial patterns can be a valuable tool for a comprehensive understanding of DOC production and transport processes within a catchment (Birkel et al., 2017; Pesántez, Birkel, Mosquera, et al., 2023; Wu et al., 2014). Visualizations of catchment fluxes, storages, and water ages, for instance, have already provided a key technique for enhancing our understanding of hydrological catchment functioning in various eco systems (Smith et al., 2022; Van Huijgevoort et al., 2016b). The Spa tially Distributed Tracer-Aided Rainfall-Runoff Model (STARR) offers the opportunity to represent hydrological processes, but also to incor porate tracers for validating hydrological processes (van Huijgevoort et al., 2016a), as highlighted below

AB - The visualization of dissolved organic carbon (DOC) spatial patterns can be a valuable tool for a comprehensive understanding of DOC production and transport processes within a catchment (Birkel et al., 2017; Pesántez, Birkel, Mosquera, et al., 2023; Wu et al., 2014). Visualizations of catchment fluxes, storages, and water ages, for instance, have already provided a key technique for enhancing our understanding of hydrological catchment functioning in various eco systems (Smith et al., 2022; Van Huijgevoort et al., 2016b). The Spa tially Distributed Tracer-Aided Rainfall-Runoff Model (STARR) offers the opportunity to represent hydrological processes, but also to incor porate tracers for validating hydrological processes (van Huijgevoort et al., 2016a), as highlighted below

KW - Dissolved organic carbon (DOC)

KW - Soil DOC

KW - DOC transport

KW - DOC production

KW - Organic carbon production

KW - Catchment

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UR - https://onlinelibrary.wiley.com/doi/10.1002/hyp.15181

U2 - 10.1002/hyp.15181

DO - 10.1002/hyp.15181

M3 - Artículo

AN - SCOPUS:85196274131

SN - 0885-6087

VL - 38

SP - 1

EP - 4

JO - Hydrological Processes

JF - Hydrological Processes

IS - 6

M1 - e15181

ER -

Spatio-temporal visualization of soil dissolved organic carbon production and mobilization in a high-elevation Andean catchment

Abstract

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