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Matching ecohydrological processes and scales of banded vegetation patterns in semiarid catchments

Publication ,  Journal Article
Paschalis, A; Katul, GG; Fatichi, S; Manoli, G; Molnar, P
Published in: Water Resources Research
March 1, 2016

While the claim that water-carbon interactions result in spatially coherent vegetation patterning is rarely disputed in many arid and semiarid regions, the significance of the detailed water pathways and other high frequency variability remain an open question. How the short temporal scale meteorological fluctuations form the long-term spatial variability of available soil water in complex terrains due to the various hydrological, land surface, and vegetation dynamic feedbacks frames the scope of the work here. Knowledge of the detailed mechanistic feedbacks among soil, plants, and the atmosphere will lead to advances in our understanding of plant water availability in arid and semiarid ecosystems and will provide insights for future model development concerning vegetation pattern formation. In this study, quantitative estimates of water fluxes and vegetation productivity are provided for a semiarid ecosystem with established vegetation bands on hillslopes using numerical simulations. A state-of-the-science process based ecohydrological model is used, which resolves hydrological and plant physiological processes at the relevant space and time scales, for relatively small periods (e.g., decades) of mature ecosystems (i.e., spatially static vegetation distribution). To unfold the mechanisms that shape the spatial distribution of soil moisture, plant productivity and the relevant surface/subsurface and atmospheric water fluxes, idealized hillslope numerical experiments are constructed, where the effects of soil type, slope steepness, and overland flow accumulation area are quantified. Those mechanisms are also simulated in the presence of complex topography features on landscapes. The main results are (a) short temporal scale meteorological variability and accurate representation of the scales at which each ecohydrological process operates are crucial for the estimation of the spatial variability of soil water availability to the plant root zone; (b) water fluxes such as evapotranspiration, infiltration, runoff-run-on, and subsurface soil water movement have a dynamic short temporal scale behavior that determines the long-term spatial organization of plant soil water availability in ecosystems with established vegetation patterns; and (c) hypotheses concerning the hydrological responses that can lead to vegetation pattern formation have to accommodate realistic and physically based representations of the fast dynamics of key ecohydrological fluxes.

Duke Scholars

Published In

Water Resources Research

DOI

EISSN

1944-7973

ISSN

0043-1397

Publication Date

March 1, 2016

Volume

52

Issue

3

Start / End Page

2259 / 2278

Related Subject Headings

  • Environmental Engineering
  • 4011 Environmental engineering
  • 4005 Civil engineering
  • 3707 Hydrology
  • 0907 Environmental Engineering
  • 0905 Civil Engineering
  • 0406 Physical Geography and Environmental Geoscience
 

Citation

APA
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ICMJE
MLA
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Paschalis, A., Katul, G. G., Fatichi, S., Manoli, G., & Molnar, P. (2016). Matching ecohydrological processes and scales of banded vegetation patterns in semiarid catchments. Water Resources Research, 52(3), 2259–2278. https://doi.org/10.1002/2015WR017679
Paschalis, A., G. G. Katul, S. Fatichi, G. Manoli, and P. Molnar. “Matching ecohydrological processes and scales of banded vegetation patterns in semiarid catchments.” Water Resources Research 52, no. 3 (March 1, 2016): 2259–78. https://doi.org/10.1002/2015WR017679.
Paschalis A, Katul GG, Fatichi S, Manoli G, Molnar P. Matching ecohydrological processes and scales of banded vegetation patterns in semiarid catchments. Water Resources Research. 2016 Mar 1;52(3):2259–78.
Paschalis, A., et al. “Matching ecohydrological processes and scales of banded vegetation patterns in semiarid catchments.” Water Resources Research, vol. 52, no. 3, Mar. 2016, pp. 2259–78. Scopus, doi:10.1002/2015WR017679.
Paschalis A, Katul GG, Fatichi S, Manoli G, Molnar P. Matching ecohydrological processes and scales of banded vegetation patterns in semiarid catchments. Water Resources Research. 2016 Mar 1;52(3):2259–2278.
Journal cover image

Published In

Water Resources Research

DOI

EISSN

1944-7973

ISSN

0043-1397

Publication Date

March 1, 2016

Volume

52

Issue

3

Start / End Page

2259 / 2278

Related Subject Headings

  • Environmental Engineering
  • 4011 Environmental engineering
  • 4005 Civil engineering
  • 3707 Hydrology
  • 0907 Environmental Engineering
  • 0905 Civil Engineering
  • 0406 Physical Geography and Environmental Geoscience