Published July 13, 2017
| Version v1
Journal article
Open
Marginal cost curves for water footprint reduction in irrigated agriculture: guiding a cost-effective reduction of crop water consumption to a permit or benchmark level
Authors/Creators
- 1. Twente Water Centre, University of Twente, Enschede, the Netherlands
- 2. Institute of Water Policy, Lee Kuan Yew School of Public Policy, National University of Singapore, Singapore
Description
Reducing the water footprint (WF) of the process of growing
irrigated crops is an indispensable element in water management, particularly
in water-scarce areas. To achieve this, information on marginal cost curves
(MCCs) that rank management packages according to their cost-effectiveness to
reduce the WF need to support the decision making. MCCs enable the estimation
of the cost associated with a certain WF reduction target, e.g. towards a
given WF permit (expressed in m3 ha−1 per season) or to a certain WF benchmark (expressed in m3 t−1
of crop). This paper aims to develop MCCs for
WF reduction for a range of selected cases. AquaCrop, a soil-water-balance
and crop-growth model, is used to estimate the effect of different management
packages on evapotranspiration and crop yield and thus the WF of crop
production. A management package is defined as a specific combination of
management practices: irrigation technique (furrow, sprinkler, drip or
subsurface drip); irrigation strategy (full or deficit irrigation); and
mulching practice (no, organic or synthetic mulching). The annual average
cost for each management package is estimated as the annualized capital cost
plus the annual costs of maintenance and operations (i.e. costs of water,
energy and labour). Different cases are considered, including three crops
(maize, tomato and potato); four types of environment (humid in UK, sub-humid
in Italy, semi-arid in Spain and arid in Israel); three hydrologic years
(wet, normal and dry years) and three soil types (loam, silty clay loam and
sandy loam). For each crop, alternative WF reduction pathways were developed,
after which the most cost-effective pathway was selected to develop the MCC
for WF reduction. When aiming at WF reduction one can best improve the
irrigation strategy first, next the mulching practice and finally the
irrigation technique. Moving from a full to deficit irrigation strategy is
found to be a no-regret measure: it reduces the WF by reducing water
consumption at negligible yield reduction while reducing the cost for
irrigation water and the associated costs for energy and labour. Next, moving
from no to organic mulching has a high cost-effectiveness, reducing the WF
significantly at low cost. Finally, changing from sprinkler or furrow to drip
or subsurface drip irrigation reduces the WF, but at a significant cost.
Files
hess-21-3507-2017.xml
Files
(170.8 kB)
| Name | Size | Download all |
|---|---|---|
|
md5:4e93edc0148d933a65da4f5c7aaa3ece
|
170.8 kB | Preview Download |