TY - JOUR
T1 - The double-edged sword of agricultural tile drainage effects on stream flashiness
T2 - A meta-analysis
AU - Zhou, Shengnan
AU - Margenot, Andrew J.
N1 - Publisher Copyright:
© 2024 The Author(s)
PY - 2025/4
Y1 - 2025/4
N2 - Tile drainage increases agricultural productivity and can significantly alter downstream hydrology. A comprehensive understanding of tile drainage impacts on stream flashiness can inform tile drainage design and management at the watershed scale to balance agronomic benefits and potential impacts on watershed hydrology. We evaluated by meta-analysis the impact of tile drainage on downstream flashiness (Richards-Baker Index, RBI) for 464 rain-fed watersheds worldwide encompassing highly variable tile drainage extent and watershed characteristics, identified by systematic literature review and from USGS datasets. Watersheds were largely concentrated in North America (89.9 %), particularly the US Upper Midwest (77.4 %), and northern Europe (9.7 %). Stream flashiness was similar regardless of tile drainage extent. However, stream flashiness was higher in relatively flat (<2% slope) watersheds with medium (RBI 0.44) and high (RBI 0.37) tile drainage extent relative to low tile drainage extent (RBI 0.33) watersheds. For watersheds with slopes averaging >2 %, flashiness was greater for low tile drainage (RBI 0.49) than medium (RBI 0.25) or high (RBI 0.35) tile drainage. Watersheds with low infiltration soils exhibited 24 % greater flashiness for low (RBI 0.51) tile drainage extent than for high (RBI 0.41) tile drainage extent. In watersheds with soils of high infiltration rate, stream flashiness was similar across the low (RBI 0.28), medium (RBI 0.30), and high (RBI 0.29) tile drainage extents. By accounting for watershed characteristics of slope and soil infiltration, this work points to complex drivers of tile drainage outcomes for stream flashiness that can lead to opposite impacts of tile drainage on stream flashiness and thus preclude blanket conclusions of tiling effects on watershed hydrology. Additionally, we identify salient data gaps in tile system design and management (e.g., tile diameter, installation depth, and spacing) that must be resolved to enable more accurate assessments of context-specific tile drainage impacts on stream flashiness.
AB - Tile drainage increases agricultural productivity and can significantly alter downstream hydrology. A comprehensive understanding of tile drainage impacts on stream flashiness can inform tile drainage design and management at the watershed scale to balance agronomic benefits and potential impacts on watershed hydrology. We evaluated by meta-analysis the impact of tile drainage on downstream flashiness (Richards-Baker Index, RBI) for 464 rain-fed watersheds worldwide encompassing highly variable tile drainage extent and watershed characteristics, identified by systematic literature review and from USGS datasets. Watersheds were largely concentrated in North America (89.9 %), particularly the US Upper Midwest (77.4 %), and northern Europe (9.7 %). Stream flashiness was similar regardless of tile drainage extent. However, stream flashiness was higher in relatively flat (<2% slope) watersheds with medium (RBI 0.44) and high (RBI 0.37) tile drainage extent relative to low tile drainage extent (RBI 0.33) watersheds. For watersheds with slopes averaging >2 %, flashiness was greater for low tile drainage (RBI 0.49) than medium (RBI 0.25) or high (RBI 0.35) tile drainage. Watersheds with low infiltration soils exhibited 24 % greater flashiness for low (RBI 0.51) tile drainage extent than for high (RBI 0.41) tile drainage extent. In watersheds with soils of high infiltration rate, stream flashiness was similar across the low (RBI 0.28), medium (RBI 0.30), and high (RBI 0.29) tile drainage extents. By accounting for watershed characteristics of slope and soil infiltration, this work points to complex drivers of tile drainage outcomes for stream flashiness that can lead to opposite impacts of tile drainage on stream flashiness and thus preclude blanket conclusions of tiling effects on watershed hydrology. Additionally, we identify salient data gaps in tile system design and management (e.g., tile diameter, installation depth, and spacing) that must be resolved to enable more accurate assessments of context-specific tile drainage impacts on stream flashiness.
KW - agriculture
KW - baseflow
KW - flashiness
KW - meta-analysis
KW - tile drainage
KW - watershed characteristics
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U2 - 10.1016/j.jhydrol.2024.132500
DO - 10.1016/j.jhydrol.2024.132500
M3 - Article
AN - SCOPUS:85213279991
SN - 0022-1694
VL - 651
JO - Journal of Hydrology
JF - Journal of Hydrology
M1 - 132500
ER -