bio_parameter.nml 1.88 KB

!-----------------------------------------------------------------------------------------------
!	bio_calc	: Do biological calculations
				0: No biological calculation
				1: biological growth
!	bio_model	: Model for phytoplankton growth
!				1: Monod equations
!				2: Droop equations
!	
!	mu_max		: max growth rate for Droop equations (bio_model=2)		[s-1]
!	q0		: internal nutrient subsistence quota (for bio_model=2)		[mol N/mol C]
!	mortality	: mortality rate						[s-1]
!	Kn		: Half saturation constant					[mol N/m3]
!	Vmax		: maximum nutrient uptake rate					[molP/molC/s]
!
!	nut_profile	: initial nutrient profile
!				1: uniform in the watercolumn (mixed conditions)
!				2: two layers (stratified conditions)
!
!	nut_layer	: Depth of the bottom layer (for nut_profile=2)			[m]
!	Nutrient_0	: Initial Nutrient concentration (for nut_profile=1)		[mol N/m3]
!	Nutrient_1	: Initial nutrient concentration in the surface layer		[mol N/m3]
!	Nutrient_2	: Initial nutrient concentration in the bottom layer		[mol N/m3]
!	bottom_flux	: Nutrient replenishment at the bottom				[mol N/m3/s]
!	nut_relax	: Relax nutrient profile to initial profile
!				0: false
!				1: True
!	w_s		: Plankton settling velocity					[m/s]
!	part_management	: algorithm management number particles				
!	mu_r		: Respiration rate constant					[s-1]
!	kw		: Nutrient excretion rate constant				[s-1]
!	q_max		: internal nutrient maximum storage quota			[mol N/mol C]
!	m0		: biomass per cell						[mol C]
!-----------------------------------------------------------------------------------------------

&bio_parameter_nml

bio_calc		= 1
bio_model		= 2
mu_max			= 2.8935e-5
q0			= 0.05
mortality		= 0
Kn			= 2.14e-4
Vmax			= 9.3870e-6
nut_profile		= 1
nut_layer		= 15
Nutrient_0		= 5e-4
Nutrient_1		= 1e-6
Nutrient_2		= 5e-3
bottom_flux		= 0
nut_relax		= 0
w_s			= 0
part_management		= 0
mu_r			= 1.1574e-06
kw			= 0
q_max			= 0.5
m0			= 1e-12

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