Ecohydrological flow networks in the subsurface

L. E. Band; J. J. McDonnell; J. M. Duncan; A. Barros; A. Bejan; T. Burt; W. E. Dietrich; R. E. Emanuel; T. Hwang; G. Katul; Y. Kim; B. McGlynn; B. Miles; A. Porporato; C. Scaife; P. A. Troch

doi:10.1002/eco.1525

Ecohydrological flow networks in the subsurface

L. E. Band
, J. J. McDonnell
, J. M. Duncan
, A. Barros
, A. Bejan
, T. Burt
, W. E. Dietrich
, R. E. Emanuel
, T. Hwang
, G. Katul
, Y. Kim
, B. McGlynn
, B. Miles
, A. Porporato
, C. Scaife
, P. A. Troch

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

27 Scopus citations

Abstract

Preferential flow in hillslope systems through subsurface networks developed from a range of botanical, faunal and geophysical processes have been observed and inferred for decades and may provide a large component of the bulk transport of water and solutes. However, our dominant paradigm for understanding and modelling hillslope hydrologic processes is still based on the Darcy-Richards matric flow framework, now with a set of additional methods to attempt to reproduce some of the aggregate function of the two-phase system of network and matrix flow. We call for a community effort to design and implement a set of well planned experiments in different natural and constructed hillslopes, coupled with the development of new theory and methods to explicitly incorporate and couple the co-evolution of subsurface flow networks as intrinsic components of hydrological, ecological and geomorphic systems. This is a major community challenge that can now benefit from new experimental infrastructure, renewal of older infrastructure and recent advances in sensor systems and computational capacity but will also require a sustained and organized interdisciplinary approach.

Original language	English (US)
Pages (from-to)	1073-1078
Number of pages	6
Journal	Ecohydrology
Volume	7
Issue number	4
DOIs	https://doi.org/10.1002/eco.1525
State	Published - Aug 2014

All Science Journal Classification (ASJC) codes

Ecology, Evolution, Behavior and Systematics
Aquatic Science
Ecology
Earth-Surface Processes

Access to Document

10.1002/eco.1525

Cite this

@article{4f483517038a456a9d170896e5f3f74d,

title = "Ecohydrological flow networks in the subsurface",

abstract = "Preferential flow in hillslope systems through subsurface networks developed from a range of botanical, faunal and geophysical processes have been observed and inferred for decades and may provide a large component of the bulk transport of water and solutes. However, our dominant paradigm for understanding and modelling hillslope hydrologic processes is still based on the Darcy-Richards matric flow framework, now with a set of additional methods to attempt to reproduce some of the aggregate function of the two-phase system of network and matrix flow. We call for a community effort to design and implement a set of well planned experiments in different natural and constructed hillslopes, coupled with the development of new theory and methods to explicitly incorporate and couple the co-evolution of subsurface flow networks as intrinsic components of hydrological, ecological and geomorphic systems. This is a major community challenge that can now benefit from new experimental infrastructure, renewal of older infrastructure and recent advances in sensor systems and computational capacity but will also require a sustained and organized interdisciplinary approach.",

author = "Band, \{L. E.\} and McDonnell, \{J. J.\} and Duncan, \{J. M.\} and A. Barros and A. Bejan and T. Burt and Dietrich, \{W. E.\} and Emanuel, \{R. E.\} and T. Hwang and G. Katul and Y. Kim and B. McGlynn and B. Miles and A. Porporato and C. Scaife and Troch, \{P. A.\}",

year = "2014",

month = aug,

doi = "10.1002/eco.1525",

language = "English (US)",

volume = "7",

pages = "1073--1078",

journal = "Ecohydrology",

issn = "1936-0584",

publisher = "John Wiley and Sons Ltd",

number = "4",

}

TY - JOUR

T1 - Ecohydrological flow networks in the subsurface

AU - Band, L. E.

AU - McDonnell, J. J.

AU - Duncan, J. M.

AU - Barros, A.

AU - Bejan, A.

AU - Burt, T.

AU - Dietrich, W. E.

AU - Emanuel, R. E.

AU - Hwang, T.

AU - Katul, G.

AU - Kim, Y.

AU - McGlynn, B.

AU - Miles, B.

AU - Porporato, A.

AU - Scaife, C.

AU - Troch, P. A.

PY - 2014/8

Y1 - 2014/8

N2 - Preferential flow in hillslope systems through subsurface networks developed from a range of botanical, faunal and geophysical processes have been observed and inferred for decades and may provide a large component of the bulk transport of water and solutes. However, our dominant paradigm for understanding and modelling hillslope hydrologic processes is still based on the Darcy-Richards matric flow framework, now with a set of additional methods to attempt to reproduce some of the aggregate function of the two-phase system of network and matrix flow. We call for a community effort to design and implement a set of well planned experiments in different natural and constructed hillslopes, coupled with the development of new theory and methods to explicitly incorporate and couple the co-evolution of subsurface flow networks as intrinsic components of hydrological, ecological and geomorphic systems. This is a major community challenge that can now benefit from new experimental infrastructure, renewal of older infrastructure and recent advances in sensor systems and computational capacity but will also require a sustained and organized interdisciplinary approach.

AB - Preferential flow in hillslope systems through subsurface networks developed from a range of botanical, faunal and geophysical processes have been observed and inferred for decades and may provide a large component of the bulk transport of water and solutes. However, our dominant paradigm for understanding and modelling hillslope hydrologic processes is still based on the Darcy-Richards matric flow framework, now with a set of additional methods to attempt to reproduce some of the aggregate function of the two-phase system of network and matrix flow. We call for a community effort to design and implement a set of well planned experiments in different natural and constructed hillslopes, coupled with the development of new theory and methods to explicitly incorporate and couple the co-evolution of subsurface flow networks as intrinsic components of hydrological, ecological and geomorphic systems. This is a major community challenge that can now benefit from new experimental infrastructure, renewal of older infrastructure and recent advances in sensor systems and computational capacity but will also require a sustained and organized interdisciplinary approach.

UR - https://www.scopus.com/pages/publications/84905491342

UR - https://www.scopus.com/pages/publications/84905491342#tab=citedBy

U2 - 10.1002/eco.1525

DO - 10.1002/eco.1525

M3 - Article

AN - SCOPUS:84905491342

SN - 1936-0584

VL - 7

SP - 1073

EP - 1078

JO - Ecohydrology

JF - Ecohydrology

IS - 4

ER -

Ecohydrological flow networks in the subsurface

Abstract

All Science Journal Classification (ASJC) codes

Access to Document

Other files and links

Fingerprint

Cite this