Nanomaterials: Recent advances in plant disease diagnosis and treatment

In response to an unbalanced demand for crop driven by population growth, agricultural strategies such as early diagnosis and pre-treatment to improve plant yield and quality are urgently needed. Early diagnosis and treatment of plant disease is necessary to achieve high yield and quality, as plant disease is the main cause of low yield and quality. However, standard methods (nucleic acid and antibody-based molecular assays etc.) for diagnosing plant disease still suffer from complex and laborious analysis procedures. Meanwhile, pesticides and fertilizers for treating plant disease also face concerns about low utilization rates. Therefore, there is an urgent need for novel methods to address these concerns. Recently, nanotechnology has been attracting attention in plant disease management. Nanomaterials, as its integral portion, are expected to overcome the abovementioned application deficiencies. This review systematically summarizes recent advances in nanomaterials applied to plant health monitoring and disease treatment. First, the mechanism of nanosensors to monitor plant health is discussed and its advantages over traditional detection devices are highlighted. Then, the therapeutic effects of nanopesticides/fertilizers are discussed and their use to mitigate the loss of active ingredients (AIs) is emphasized. Finally, the challenges and future perspectives for the development of nanomaterials in plant health monitoring for yield improvement are discussed. [Display omitted] •Recent advances and challenges in nanomaterials applied to plant health monitoring and disease treatment are summarized.•The mechanism of nanosensors and their advantages for plant health monitoring are discussed.•The therapeutic effects of nanopesticides/fertilizers and their use to mitigate the loss of active ingredients is emphasized.