Transitioning to Microplastic-Free Seed Coatings: Challenges and Solutions

• Published in: Polymers Vol. 16; no. 14; p. 1969
• Main Authors: Langlet, Rozenn, Valentin, Romain, Morard, Marie, Raynaud, Christine Delgado
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 10.07.2024
• Subjects: Bans; Biopolymers; Coatings; Dust control; Food; Heavy metals; High density polyethylenes; microplastics; Oceans; Plastic pollution; Pollutants; Polyethylene terephthalate; Polymers; Polysaccharides; REACH; regulation; seed coating; Substitutes; REACH; microplastics; biopolymers; regulation; seed coating
• ISSN: 2073-4360; 2073-4360
• DOI: 10.3390/polym16141969

This review addresses the issue of replacing manufactured microplastics in seed coatings used in agriculture. Firstly, it focuses on the policy and regulatory actions taken on microplastics at a global level. There is no consensus within the scientific community on the definition of a microplastic and, more generally, on the classification of plastic debris. Nevertheless, several decision schemes have been proposed in an attempt to define the notion of microplastics. The different criteria relevant to this definition, such as the size, physical state, chemical structure, origin, and persistence of microplastics, are discussed, with a comparison being made between the REACH regulation and the scientific literature. Seed production and processing are also discussed, with the functions of seed coatings being explained in order to gain a better understanding of the properties to be considered in a substitution strategy for currently used microplastics. The main challenges are multiple; substitutes must provide the same performance as microplastics: (i) improving the adherence of the treatment to the seed, (ii) distributing the treatment more evenly over the seed, (iii) reducing the amount of dust-off when handling treated seed, and (iv) improving the seed flowability, which is particularly important during the sowing stage, all while preserving the physiological properties of the seed. Substitute polymers are proposed according to the desired performance and functional properties: two main chemical families of biopolymers were identified in the literature: polysaccharides and proteins. Among them, 13 and 6 polymers, respectively, complied with REACH regulation, demonstrating adhesion, dust reduction performances, and preservation of seed physiological quality in particular. This work aims to guide future studies on microplastic substitution in seed coatings, and to highlight research needs in this area. It is based on an analysis and discussion of the literature, identifying and listing potential substitutes.