Objective evaluation of the biodegradability of agromaterials : laboratory instrumentation and in situ tests. Birth of the Comite francais pour la biodegradabilite (COBIO).
Author
Calmon, A.,
autor.
aut
56569
Bellon, Maurel V.
56570
Feuilloley, P.
56571
Gaset, A.
56356
Silvestre, F.
56572
Como citar
Abstract
The scale of the problem surrounding disposal and biodegradability of waste plastics and polyethylene products in agriculture is outlined. A study was initiated to develop scientific apparatus and to devise a method for predicting biodegradation of agricultural materials under given field conditions from a knowledge of laboratory reactions in the liquid state. The method was developed through testing mineralization of 20 different materials in the laboratory and relating this to degradation in the field over 2 years at 4 sites in France. A knowledge of agroclimatic and soil conditions at these sites will allow derivation of equations to predict rate of degradation under given field conditions. 3 ref. The scale of the problem surrounding disposal and biodegradability of waste plastics and polyethylene products in agriculture is outlined. A study was initiated to develop scientific apparatus and to devise a method for predicting biodegradation of agricultural materials under given field conditions from a knowledge of laboratory reactions in the liquid state. The method was developed through testing mineralization of 20 different materials in the laboratory and relating this to degradation in the field over 2 years at 4 sites in France. A knowledge of agroclimatic and soil conditions at these sites will allow derivation of equations to predict rate of degradation under given field conditions.
The scale of the problem surrounding disposal and biodegradability of waste plastics and polyethylene products in agriculture is outlined. A study was initiated to develop scientific apparatus and to devise a method for predicting biodegradation of agricultural materials under given field conditions from a knowledge of laboratory reactions in the liquid state. The method was developed through testing mineralization of 20 different materials in the laboratory and relating this to degradation in the field over 2 years at 4 sites in France. A knowledge of agroclimatic and soil conditions at these sites will allow derivation of equations to predict rate of degradation under given field conditions.
Palabras clave:
Aparatos
Biodegradación.
Clima.
Residuos agrícolas
Metodología.
Plásticos.
Polietileno.
prediccion
Suelo.
Aparatos
Biodegradación.
Clima.
Residuos agrícolas
Metodología.
Plásticos.
Polietileno.
prediccion
Suelo.