Example of a high environmental and low economic sustainability farm
Examples of inputs connected with high environmental and low economic sustainability in a farm.
nv_c1_name = [“Circular feed supply”]
env_c1 = c7
env_c2_name = [“Unproductive cattle”]
env_c2 = c6
env_c3_name = [“Soil quality”]
env_c3 = c7
env_c4_name = [“Reducing water use”]
env_c4 = c6
env_c5_name = [“Reducing energy use”]
env_c5 = c7
env_c6_name = [“Animal breed and crop biodiversity”]
env_c6 = c6
env_c7_name = [“Reducing pesticide use”]
env_c7 = c7
env_c8_name = [“Agroecosystem biodiversity”]
env_c8 = c6
eco_c1_name = [“Solvency”]
eco_c1 = c3
eco_c2_name = [“Cost efficiency”]
eco_c2 = c2
eco_c3_name = [“Labor efficiency”]
eco_c3 = c3
env_p1_name = [“Best dairy herd management practices”]
env_p1 = c6
env_p2_name = [“Environmental quality”]
env_p2 = c6
env_p3_name = [“Abiotic resources conservation”]
env_p3 = c5
env_p4_name = [“Biodiversity conservation”]
env_p4 = c6
eco_p1_name = [“Profitability”]
eco_p1 = c2
eco_p2_name = [“Resilience”]
eco_p2 = c3
eco_p3_name = [“Financial wealth”]
eco_p3 = c3
eco_p4_name = [“Efficiency”]
eco_p4 = c2
env_d1_name = [“Environmental branch”]
env_d1 = c6
eco_d1_name = [“Economic branch”]
eco_d1 = c3
N_EFFICIENCY = c6
LOCAL_PRODUCTION = c5
C_F_RATIO = c5
BYPRODUCT = c7
CALVING_AGE = c6
CALVING_INTERVAL = c5
EUTROPHICATION = c6
GLOBAL_WARMING = c5
ACIDIFICATION = c6
EROSION = c6
HMB = c5
WATER_ANIMAL = c6
WATER_CROP = c7
TOTAL_ENERGY = c6
RATIO_ENERGY = c7
BREED_DIVERSITY = c5
CROP_DIVERSITY = c6
TFI = c6
TOXICITY = c6
HABITAT_DIVERSITY = c5
GRASSLAND_MANAGEMENT = c6
AGRI_SCHEME = c5
# ECO
FARM_GROSS_OUTPUT = c2
FARM_GROSS_MARGIN = c3
FARM_NET_INCOME = c3
DAIRY_PRODUCT_SALES = c3
MARKET_ORIENTATION = c2
LOAN_REPAYMENT = c3
DAIRY_GROSS_OUTPUT = c3
LIABILITIES_TO_ASSETS = c3
LIABILITIES_TO_CURRENT = c3
FARM_NET_WORTH = c3
DIRECT_PROD_COST_FARM = c3
DIRECT_PROD_COST_UAA = c2
LABOR_INPUT_FARM_OUTPUT = c3
LABOR_INPUT_UAA = c3
MILK_PROD_COW = c3
# CRITERIA => A MODIFIER POUR TESTER LES DISTRIBUTIONS
# ENV
FEED_EFFICIENCY = c4
circular_feed_supply = env_c1
unproductive_cattle = env_c2
WATER_QUALITY = c6
CLIMATE_CHANGE = c6
AIR_QUALITY = c5
soil_quality = env_c3
reducing_water_use = env_c4
reducing_energy_use = env_c5
breed_crop_div = env_c6
reducing_pesticide = env_c7
agroecosystem = env_c8
# ECO
ECONOMIC_RETURN = c3
PROFIT = c3
FARM_INCOME = c3
DAIRY_SALES = c3
DEPENDANCE_MARKET = c2
PRESSURE_DEBT = c3
DEGREE_SPE = c2
solvency = eco_c1
CAPITAL = c3
cost_efficiency = eco_c2
labor_efficiency = eco_c3
PARTIAL_PRODUCTIVITY = c3
# PRINCIPLES => A MODIFIER POUR TESTER LES DISTRIBUTIONS
# ENV
best_dairy_practice = env_p1
env_quality = env_p2
resources_conservation = env_p3
biodiversity_conservation = env_p4
# ECO
profitability = eco_p1
resilience = eco_p2
financial_wealth = eco_p3
efficiency = eco_p4
# DIMENSIONS
environmental_sustainability = env_d1
economic_sustainability = eco_d1