The impact of forest use and reforestation on soil hydraulic conductivity in the Western Ghats of India: Implications for surface and sub-surface hydrology

M. Bonell, B. K. Purandara, B. Venkatesh, Jagdish Krishnaswamy, H. A. K. Acharya, U. V. Singh, R. Jayakumar, N. Chappell

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    144 Citations (Scopus)

    Abstract

    There is comparatively limited information in the humid tropics on the surface and sub-surface permeability of: (i) forests which have been impacted by multi-decades of human occupancy and (ii) forestation of land in various states of degradation. Even less is known about the dominant stormflow pathways for these respective scenarios. We sampled field saturated hydraulic conductivity. K-* at 23 sites at four depths (0 m, n = 166), (0.10 m, n = 139),0.45-0.60 m, n = 117, (1.35-1.50 m. n = 117) under less disturbed forest (Forest), disturbed production forest of various local species (Degraded Forest) and tree-plantations (Acacia auriculiformes, 7-10 years old, Tectona grandis, similar to 25-30 years old, Casuarina equisetifolia, 12 years old) in the Uttar Kannada district, Karnataka, India, in the Western Ghats. The sampling strategy was also undertaken across three physiographic blocks and under three main soil types. Subsequently the determined K-* were then linked with rainfall intensity-duration-frequency (IDF) characteristics to infer the dominant stormflow pathways.

    The Degraded Forest shows an order of magnitude decline in K-* at the surface as result of human impacts at decadal to century time scales. The lowest surface permeability is associated with the Degraded Forests over the Laterite (Eutric Nitosols and Acrisols) and Red soils (Eutric Nitosols) and infiltration-excess overland flow, IOF probably occurs. Further there is a progressive decline in K-* with depth in these soils supporting Degraded Forests. The A. auriculiformes plantations over the Red and Lateritic soils are progressively restoring the near-surface K-* but their K-* still remain quite low when compared to the less disturbed forest permeability. Consequently these plantations still retain the 'memory' from the previous degraded state. In contrast the permeability of the Black soils (Vertisols) are relatively insensitive to T. grandis plantations and this soil group has a very low K-*, irrespective of land cover, so that IOF likely prevails. Overall, the Laterites are the most variable in K-* when compared to the other soil groups. Thus when compared to other studies, IOF is probably more prevalent in this region. More especially so, when taking into account the marked reduction in surface K-* during the wet season when compared to dry season measurements. In addition, we have demonstrated the potential for the 'infiltration - trade-off' hypothesis to be realized in this landscape under certain conditions of land degradation and restoration. It is most relevant to the combination of degraded sites and A. auricultformes plantations on Red or Laterite soils using the less disturbed forests as the baseline. The intensity of forest use and effects of monoculture plantations on soil ecology (relative to native, mixed forests) is likely to be the critical factor in affecting surface K-* over time. Predicted changes in the intensity of rain events in the future is likely to enhance overland flow on degraded sites on all soils and especially on Black soils, and restoration efforts by all stake-holders, preferably using native or non-invasive species, are needed to address this concern. (c) 2010 Elsevier B.V. All rights reserved.

    Original languageEnglish
    Pages (from-to)49-64
    Number of pages16
    JournalJournal of Hydrology
    Volume391
    Issue number1-2
    DOIs
    Publication statusPublished - 14 Sept 2010

    Keywords

    • Hydraulic conductivity
    • Rainfall
    • Dominant stormflow pathways
    • Forestation
    • Humid tropics
    • PILL MILLIPEDES ARTHROSPHAERA
    • MOUNTAINOUS NORTHERN VIETNAM
    • HEAD WELL PERMEAMETER
    • LAND-USE CHANGE
    • TROPICAL FOREST
    • SOUTH-INDIA
    • RUNOFF PROCESSES
    • LANDSCAPE FRAGMENTATION
    • STORMFLOW GENERATION
    • HEADWATER CATCHMENT

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