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3 results

Hydrology
  • An Introduction
  • 2nd edition
  • Wilfried Brutsaert
  • Published online:
    01 March 2023
    Print publication:
    23 February 2023
  • Wilfried Brutsaert (2022 Stockholm Water Prize Laureate) has revised and updated his classic textbook to take into account recent developments, while retaining the rigor and structure of the previous edition to introduce the fundamental principles of hydrology. New topics include the response of the global water cycle to climate change, the land surface energy budget closure, snow melt, groundwater trends and statistical surface variability with disturbed atmospheric boundary layers. Hydrologic phenomena are dealt with at the spatial and temporal scales at which they occur in nature. The physics and mathematics necessary to describe these phenomena are introduced and developed: readers will require a working knowledge of calculus and basic fluid mechanics. This classroom-tested textbook – based on the author's long-running course at Cornell - is invaluable for entry-level courses in hydrology directed at advanced undergraduate and graduate students in physical science and engineering. In addition, it is also a great reference text for practising scientists and engineers.

  • 7 - Future Developments

  • Andrew Binley, Lancaster University, Lee Slater, Rutgers University, New Jersey
  • Book:
    Resistivity and Induced Polarization
    Published online:
    17 December 2020
    Print publication:
    17 December 2020, pp 321-327

  • Summary

    In this chapter, we offer some final remarks on areas of potential future development, targeting: petrophysics, instrumentation and modelling. We discuss how new modelling approaches, e.g. using pore-networks, are emerging to improve interpretation of electrical phenomena in porous media.We highlight some aspects of ambiguity in induced polarization (IP) properties and call for improvements in mechanistic petrophysical models of IP processes.New developments in instrumentation are discussed, highlighting the potential for time-lapse (monitoring) studies and the imaging of complex terrains using distributed measurement systems. Growth in the use of parallel computation for large-scale modelling problems is discussed.The emergence of machine learning methods is also highlighted.The need for improved methods for (and more adoption of) uncertainty estimation in inverse models is discussed.We close by recognizing the immense value and likely longevity of simple, more traditional, approaches for modelling resistivity and IP data.

  • Soil evolution and development of the clay mineral assemblages of a Podzol and a Cambisol in ‘Meggerwald’, Switzerland

  • M. Egli, R. Zanelli, G. Kahr, A. Mirabella, P. Fitze
  • Journal:
    Clay Minerals / Volume 37 / Issue 2 / June 2002
    Published online by Cambridge University Press:
    09 July 2018, pp. 351-366

  • Two soils, a haplic Podzol and a dystric Cambisol, developed from post-glacial tills, were studied with respect to their soil chemistry and clay mineralogy. Although the state factors (age, geology, topography, climate) of soil formation were almost identical, two different types developed. The E horizon of the Podzol contained more smectite, characterized by a montmorillonite-beidellitemixed phase. The neoformation of smectite could be traced back to the weathering of mica and chlorite. The Podzol had less hydroxy-interlayered smectite (HIS) in the surface horizons than the Cambisol. A larger amount of chelating compounds in the E horizon of the Podzol either transformed HIS into smectites or inhibited the formation of HIS and favoured the formation of smectites. The physical structure of the soil material is believed to be the most important factor in the different modes of soil evolution. The greater abundance of coarse pores in the topsoil at the Podzol site probably led to a faster eluviation of base cations, a different vegetation at ground level, and, consequently, to a faster soil evolution with the formation of spodic horizons.