6.17. jules_irrig.nml
¶
This file sets the irrigation options. It contains one namelist called JULES_IRRIG
.
6.17.1. JULES_IRRIG
namelist members¶
This namelist specifies the different options available for setting up the irrigation.
Note
- Irrigation can be applied at a constant rate in three ways:
To apply a constant irrigation to all surface tiles the irrigation settings are as follows: frac_irrig_all_tiles=T, set_irrfrac_on_irrtiles=F and set a value for
const_frac_irr
.
To apply a constant irrigation to only specific surface tiles the irrigation settings are as follows: frac_irrig_all_tiles=F and set_irrfrac_on_irrtiles=T and set a value for
const_irrfrac_irrtiles
.
To apply a constant irrigation to specific surface tiles as an average across the gridbox, which is the way irrigation on specific tiles was done prior to vn5.7, the irrigation settings are as follows: frac_irrig_all_tiles=F, set_irrfrac_on_irrtiles=F and set a value for
const_frac_irr
.
In both option 2 and 3, irrigtiles
is the index of surface tiles you wish to irrigate, the length of which is nirrtile
e.g. if you include wheat and maize in your run at index 5 and 6 then irrigtiles=5,6 and nirrtile=2.
- JULES_IRRIG::l_irrig_dmd¶
- Type:
logical
- Default:
F
Switch controlling the implementation of irrigation demand code.
- TRUE
Tiles are irrigated.
- FALSE
No effect.
This must be set to TRUE if
l_water_irrigation
= TRUE.
- JULES_IRRIG::l_irrig_limit¶
- Type:
logical
- Default:
F
Switch controlling whether the amount of water used to irrigate tiles is limited.
- TRUE
Water for irrigation is taken first from the deep soil (groundwater) store, and then from the river storage when the deep soil store is exhausted. Tiles are irrigated up to the critical point if the necessary water is available. This option requires
l_irrig_dmd
= TRUE,l_top
= TRUE,l_rivers
= TRUE andi_river_vn
=1,3
.Warning
The irrigation supply code in JULES is still in development, and is available in this release to support beta testing activities.
Users should ensure that results are as expected, and provide feedback where deficiencies are identified.
- FALSE
Tiles will be irrigated to critical point from an unconstrained water supply.
This must be set to FALSE if
l_water_irrigation
= TRUE.
- JULES_IRRIG::irr_crop¶
- Type:
integer
- Permitted:
0, 1 or 2
- Default:
0
Irrigation season (i.e. season in which crops might be growing on the gridbox) lasts the entire year.
Irrigation season is determined from driving data according to Döll & Siebert (2002) method. No irrigation is applied outside the irrigation season.
Irrigation season is determined by maximum dvi across all surface tiles. Requires
ncpft
> 0. No irrigation is applied outside the irrigation season.
- JULES_IRRIG::frac_irrig_all_tiles¶
- Type:
logical
- Default:
T
If T, then irrigation fraction is applied to all surface tiles, and F, it is applied only to the surface tiles specified in
irrigtiles
.
- JULES_IRRIG::set_irrfrac_on_irrtiles¶
- Type:
logical
- Default:
F
If F then irrigation is applied as an average across the gridbox and not to specific surface tiles. If T, then the irrigation fraction is only applied to the surface tile specified in
irrigtiles
. Bothfrac_irrig_all_tiles
andset_irrfrac_on_irrtiles
cannot be set to T.
- JULES_IRRIG::nirrtile¶
- Type:
integer
- Default:
None
The number of surface tiles to be irrigated. Only used if
frac_irrig_all_tiles
= F.
- JULES_IRRIG::irrigtiles¶
- Type:
integer(nirrtile)
- Default:
None
Indices of the surface tiles to be irrigated. Only used if
frac_irrig_all_tiles
= F.
- JULES_IRRIG::nstep_irrig¶
- Type:
integer
- Permitted:
> 0
- Default:
86400/
timestep_len
The number of model timesteps per irrigation update step
Irrigation will be updated every
nstep_irrig
timesteps. For example, with a model timestep of 1 hour,nstep_irrig
= 24 means that irrigation will be updated on the 24th timestep, i.e. daily updates.nstep_irrig
= NINT(frequency of irrigation update (in sec)) /timestep_len
)
6.17.2. JULES_IRRIG
references¶
Döll, P., and Siebert, S., Global modeling of irrigation water requirements, Water Resour. Res., 38(4), https://doi.org/10.1029/2001WR000355, 2002.