Namelist: nampisprod

nampisprod

SOG Name

SMELT Name

Description

SOG Value

Units

Notes

rate_micro%R

zz_rate_R_diat

micro-phyto maximum growth rate

0.600E-04

1/s

Hitchcock 1980: 1.4 d-1 for T. nordenskelii at 10degrees

rate_nano%R

zz_rate_R_myri

  1. rubrum maximum growth rate

0.250E-04

1/s

Yih 2004: 0.5 d-1 for Mesodinium rubrum (at 15 degrees) and Q10**2 tuned up and at Q10**1

rate_pico%R

zz_rate_R_nano

nanoflagellate maximum growth rate

0.250E-04

1/s

rate_micro%maxtemp

zz_rate_maxtemp_diat

high temperature limit

35

deg C

Durbin 1974: T. nordenskelli cannot grow at 18 degrees; general diatoms increase this

rate_nano%maxtemp

zz_rate_maxtemp_myri

high temperature limit

35

deg C

Mesodinium, Cloern 1977

rate_pico%maxtemp

zz_rate_maxtemp_nano

high temperature limit

35

deg C

rate_micro%temprange

zz_rate_temprange_diat

growth limit range below max temperature

5

deg C

equal growth at 10 and 15 so range down 8 (which Q10 should be about const)

rate_nano%temprange

zz_rate_temprange_myri

growth limit range below max temperature

5

deg C

starts turning over earlier

rate_pico%temprange

zz_rate_temprange_nano

growth limit range below max temperature

5

deg C

rate_micro%Iopt

zz_rate_Iopt_diat

micro-phyto growth optimal light level

42

W/m^2

Durbin 1974: 3.3 lg/s for T. nordenskelii at 10 degrees

rate_nano%Iopt

zz_rate_Iopt_myri

  1. rubrum growth optimal light level

37

W/m^2

Yih plus Cloern 1977 Half-sat very similar

rate_pico%Iopt

zz_rate_Iopt_nano

pico-phyto growth optimal light level

10

W/m^2

rate_micro%gamma

zz_rate_gamma_diat

growth light limitation loss parameter

0

rate_nano%gamma

zz_rate_gamma_myri

growth light limitation loss parameter

0

rate_pico%gamma

zz_rate_gamma_nano

growth light limitation loss parameter

0

rate_micro%K_Si

zz_rate_K_Si_diat

Si half saturation constant

0.6

rate_nano%K_Si

zz_rate_K_Si_myri

Si half saturation constant

0

rate_pico%K_Si

zz_rate_K_Si_nano

Si half saturation constant

0

rate_micro%gamma_o

zz_rate_gamma_o_diat

exponential NH inhibition of NO3 uptake

0

rate_nano%gamma_o

zz_rate_gamma_o_myri

exponential NH inhibition of NO3 uptake

0

rate_pico%gamma_o

zz_rate_gamma_o_nano

exponential NH inhibition of NO3 uptake

0

rate_micro%kapa

zz_rate_kapa_diat

preference for NO3 over NH factor

1

rate_nano%kapa

zz_rate_kapa_myri

preference for NO3 over NH factor

0.5

rate_pico%kapa

zz_rate_kapa_nano

preference for NO3 over NH factor

0.3

rate_micro%k

zz_rate_k_diat

NO3 half-saturation constant

2

rate_nano%k

zz_rate_k_myri

NO3 half-saturation constant

0.5

rate_pico%k

zz_rate_k_nano

NO3 half-saturation constant

0.1

rate_micro%N_x

zz_rate_N_x_diat

N inhibition exponent

0

rate_nano%N_x

zz_rate_N_x_myri

N inhibition exponent

0

rate_pico%N_x

zz_rate_N_x_nano

N inhibition exponent

0

rate_micro%N_o

zz_rate_N_o_diat

overal half-saturation constant

0

rate_nano%N_o

zz_rate_N_o_myri

overal half-saturation constant

0

rate_pico%N_o

zz_rate_N_o_nano

overal half-saturation constant

0

rate_micro%Si_ratio

zz_rate_Si_ratio_diat

micro-phyto silicon/nitrogen ratio

2

rate_nano%Si_ratio

zz_rate_Si_ratio_myri

silicon/nitrogen ratio

0

rate_pico%Si_ratio

zz_rate_Si_ratio_nano

silicon/nitrogen ratio

0