{"Crop":"barley, spring","RP":0.451,"RS":0.4,"RR":0.09,"RE":0.059,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.53,"variable_harvest_index":true,"HI_intercept":0.373,"HI_slope":0.028,"shoot_root_ratio":9.456,"root_exudation_factor":0.656,"fixed_belowground_input":true,"C_input_root":362.416,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"barley, winter","RP":0.451,"RS":0.4,"RR":0.09,"RE":0.059,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":5.1,"harvest_index":0.53,"variable_harvest_index":true,"HI_intercept":0.373,"HI_slope":0.028,"shoot_root_ratio":9.456,"root_exudation_factor":0.656,"fixed_belowground_input":true,"C_input_root":362.416,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"beet, fodder","RP":0.626,"RS":0.357,"RR":0.017,"RE":0,"SP":0,"SS":1,"SR":0.1,"SE":0,"crop_product":17.5,"harvest_index":0.637,"variable_harvest_index":false,"shoot_root_ratio":57.824,"root_exudation_factor":0,"fixed_belowground_input":false,"Source":"Keel et al. (2017), same as sugar beet"}
{"Crop":"beet, sugar","RP":0.626,"RS":0.357,"RR":0.017,"RE":0,"SP":0,"SS":1,"SR":0.1,"SE":0,"crop_product":19.8,"harvest_index":0.637,"variable_harvest_index":false,"shoot_root_ratio":57.824,"root_exudation_factor":0,"fixed_belowground_input":false,"Source":"Bolinder et al. (2015) for R factors, Keel et al. (2017) for S factors"}
{"Crop":"cover crop","SP":1,"SS":1,"SR":1,"SE":1,"crop_product":2.784,"harvest_index":1,"variable_harvest_index":false,"shoot_root_ratio":3.667,"root_exudation_factor":0.31,"fixed_belowground_input":false,"Source":"Values assumed based on Seitz et al. (2022), the crop_product of 1.253 tC/ha is the equivalent of the DM production of a short-lasting winter cover crop (180 days)"}
{"Crop":"faba bean, spring","RP":0.258,"RS":0.445,"RR":0.147,"RE":0.15,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":3.4,"harvest_index":0.367,"variable_harvest_index":true,"HI_intercept":0.279,"HI_slope":0.046,"shoot_root_ratio":4.768,"root_exudation_factor":1.016,"fixed_belowground_input":false,"Source":"Wüst-Galey et al. (2020), variable HI from Fan et al. (2017)"}
{"Crop":"faba bean, winter","RP":0.258,"RS":0.445,"RR":0.147,"RE":0.15,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":3.4,"harvest_index":0.367,"variable_harvest_index":true,"HI_intercept":0.279,"HI_slope":0.046,"shoot_root_ratio":4.768,"root_exudation_factor":1.016,"fixed_belowground_input":false,"Source":"Wüst-Galey et al. (2020), variable HI from Fan et al. (2017)"}
{"Crop":"ley, temporary","SP":0,"SS":0,"SR":1,"SE":1,"crop_product":13,"harvest_index":1,"variable_harvest_index":false,"shoot_root_ratio":0,"root_exudation_factor":0.5,"fixed_belowground_input":true,"C_input_root":1500,"Source":"Fixed below ground carbon inputs are assumed (Taghizadeh-Toosi, et al., 2020), furthermore it assumed that there are no losses of above ground biomass at harvest (i.e. SP = 0)"}
{"Crop":"maize, grain","RP":0.386,"RS":0.387,"RR":0.138,"RE":0.089,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":8.5,"harvest_index":0.499,"variable_harvest_index":true,"HI_intercept":0.369,"HI_slope":0.015,"shoot_root_ratio":5.601,"root_exudation_factor":0.645,"fixed_belowground_input":true,"C_input_root":279.648,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for maize assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"maize, silage","RP":0.772,"RS":0,"RR":0.138,"RE":0.09,"SP":0.05,"SS":1,"SR":1,"SE":1,"crop_product":18.5,"harvest_index":1,"variable_harvest_index":false,"shoot_root_ratio":5.594,"root_exudation_factor":0.652,"fixed_belowground_input":true,"C_input_root":665.789,"Source":"Bolinder et al. (2007), fixed below ground C inputs for maize assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)."}
{"Crop":"oat, spring","RP":0.319,"RS":0.283,"RR":0.241,"RE":0.157,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.53,"variable_harvest_index":true,"HI_intercept":0.357,"HI_slope":0.029,"shoot_root_ratio":2.498,"root_exudation_factor":0.651,"fixed_belowground_input":true,"C_input_root":363.317,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"oat, winter","RP":0.319,"RS":0.283,"RR":0.241,"RE":0.157,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.53,"variable_harvest_index":true,"HI_intercept":0.357,"HI_slope":0.029,"shoot_root_ratio":2.498,"root_exudation_factor":0.651,"fixed_belowground_input":true,"C_input_root":363.317,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"pea, spring","RP":0.263,"RS":0.4,"RR":0.041,"RE":0.296,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":3.4,"harvest_index":0.397,"variable_harvest_index":true,"HI_intercept":0.163,"HI_slope":0.071,"shoot_root_ratio":16.171,"root_exudation_factor":7.22,"fixed_belowground_input":false,"Source":"Wüst-Galey et al. (2020), variable HI from Fan et al. (2017)"}
{"Crop":"pea, winter","RP":0.263,"RS":0.4,"RR":0.041,"RE":0.296,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":3.4,"harvest_index":0.397,"variable_harvest_index":true,"HI_intercept":0.163,"HI_slope":0.071,"shoot_root_ratio":16.171,"root_exudation_factor":7.22,"fixed_belowground_input":false,"Source":"Wüst-Galey et al. (2020), variable HI from Fan et al. (2017)"}
{"Crop":"potato","RP":0.739,"RS":0.236,"RR":0.025,"RE":0,"SP":0.08,"SS":1,"SR":0.1,"SE":0,"crop_product":9.9,"harvest_index":0.758,"variable_harvest_index":false,"shoot_root_ratio":39,"root_exudation_factor":0,"fixed_belowground_input":false,"Source":"Bolinder et al. (2015) for R factors, Keel et al. (2017) for S factors"}
{"Crop":"rapeseed, spring","RP":0.132,"RS":0.528,"RR":0.206,"RE":0.134,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":2.25,"harvest_index":0.2,"variable_harvest_index":true,"HI_intercept":0.18,"HI_slope":0.046,"shoot_root_ratio":3.204,"root_exudation_factor":0.65,"fixed_belowground_input":false,"Source":"Wüst-Galey et al. (2020), variable HI from Fan et al. (2017)"}
{"Crop":"rapeseed, winter","RP":0.132,"RS":0.528,"RR":0.206,"RE":0.134,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":3.15,"harvest_index":0.2,"variable_harvest_index":true,"HI_intercept":0.18,"HI_slope":0.046,"shoot_root_ratio":3.204,"root_exudation_factor":0.65,"fixed_belowground_input":false,"Source":"Wüst-Galey et al. (2020), variable HI from Fan et al. (2017)"}
{"Crop":"rye, spring","RP":0.335,"RS":0.482,"RR":0.11,"RE":0.073,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.41,"variable_harvest_index":true,"HI_intercept":0.38,"HI_slope":0.015,"shoot_root_ratio":7.427,"root_exudation_factor":0.664,"fixed_belowground_input":true,"C_input_root":360.656,"Source":"Values for small grained cereals from Bolinder et al. (2007), variable HI for cereals from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"rye, winter","RP":0.335,"RS":0.482,"RR":0.11,"RE":0.073,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.41,"variable_harvest_index":true,"HI_intercept":0.38,"HI_slope":0.015,"shoot_root_ratio":7.427,"root_exudation_factor":0.664,"fixed_belowground_input":true,"C_input_root":360.656,"Source":"Values for small grained cereals from Bolinder et al. (2007), variable HI for cereals from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"sorghum","RP":0.219,"RS":0.656,"RR":0.075,"RE":0.05,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":2.975,"harvest_index":0.25,"variable_harvest_index":true,"HI_intercept":0.38,"HI_slope":0.015,"shoot_root_ratio":11.667,"root_exudation_factor":0.667,"fixed_belowground_input":false,"Source":"Bolinder et al. (2007), variable HI for cereals from Fan et al. (2017)"}
{"Crop":"soybean","RP":0.304,"RS":0.455,"RR":0.146,"RE":0.095,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":2.55,"harvest_index":0.401,"variable_harvest_index":true,"HI_intercept":0.2,"HI_slope":0.099,"shoot_root_ratio":5.199,"root_exudation_factor":0.651,"fixed_belowground_input":false,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017)"}
{"Crop":"sunflower","RP":0.304,"RS":0.455,"RR":0.146,"RE":0.095,"SP":0,"SS":1,"SR":1,"SE":1,"crop_product":2.55,"harvest_index":0.401,"variable_harvest_index":false,"shoot_root_ratio":5.199,"root_exudation_factor":0.651,"fixed_belowground_input":false,"Source":"Bolinder et al. (2007), same as soybean (as Keel et al., 2017)"}
{"Crop":"triticale, spring","RP":0.335,"RS":0.26,"RR":0.506,"RE":0.142,"SP":0.092,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.34,"variable_harvest_index":true,"HI_intercept":0.38,"HI_slope":0.015,"shoot_root_ratio":1.176,"root_exudation_factor":0.281,"fixed_belowground_input":true,"C_input_root":468.519,"Source":"Bolinder et al. (2007), variable HI for cereals from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"triticale, winter","RP":0.335,"RS":0.26,"RR":0.506,"RE":0.142,"SP":0.092,"SS":0.15,"SR":1,"SE":1,"crop_product":4.675,"harvest_index":0.34,"variable_harvest_index":true,"HI_intercept":0.38,"HI_slope":0.015,"shoot_root_ratio":1.176,"root_exudation_factor":0.281,"fixed_belowground_input":true,"C_input_root":468.519,"Source":"Bolinder et al. (2007), variable HI for cereals from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)"}
{"Crop":"wheat, durum","RP":0.322,"RS":0.482,"RR":0.118,"RE":0.078,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":5.1,"harvest_index":0.4,"variable_harvest_index":true,"HI_intercept":0.344,"HI_slope":0.015,"shoot_root_ratio":6.814,"root_exudation_factor":0.661,"fixed_belowground_input":true,"C_input_root":361.224,"Source":"same as wheat, winter"}
{"Crop":"wheat, spring","RP":0.322,"RS":0.482,"RR":0.118,"RE":0.078,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":4.25,"harvest_index":0.4,"variable_harvest_index":true,"HI_intercept":0.344,"HI_slope":0.015,"shoot_root_ratio":6.814,"root_exudation_factor":0.661,"fixed_belowground_input":true,"C_input_root":361.224,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)."}
{"Crop":"wheat, winter","RP":0.322,"RS":0.482,"RR":0.118,"RE":0.078,"SP":0,"SS":0.15,"SR":1,"SE":1,"crop_product":5.1,"harvest_index":0.4,"variable_harvest_index":true,"HI_intercept":0.344,"HI_slope":0.015,"shoot_root_ratio":6.814,"root_exudation_factor":0.661,"fixed_belowground_input":true,"C_input_root":361.224,"Source":"Bolinder et al. (2007), variable HI from Fan et al. (2017), fixed below ground C inputs for cereals assumed based on Hirte et al. (2018), as done by Wüst-Galey et al. (2020)."}