Field Evaluation of Integrated Management for Mitigating Citrus Huanglongbing in Florida

• Published in: Frontiers in plant science Vol. 9; p. 1890
• Main Authors: Zhang, Muqing, Yang, Chuanyu, Powell, Charles A, Avery, Pasco B, Wang, Jihua, Huang, Youzong, Duan, Yongping
• Format: Journal Article
• Language: English
• Published: Switzerland Frontiers Media S.A 31.01.2019
• Subjects: Candidatus; chemotherapy; citrus huanglongbing; integrated management; Liberibacter asiaticus; Plant Science; thermotherapy; Liberibacter asiaticus; Candidatus; thermotherapy; HLB index; Las bacterial titers; citrus huanglongbing; integrated management; chemotherapy
• ISSN: 1664-462X; 1664-462X
• DOI: 10.3389/fpls.2018.01890

Citrus huanglongbing (HLB) is extremely difficult to control because the psyllid-transmitted bacterial pathogen resides inside the citrus phloem and the disease is systemic. In Florida, the nine billion dollar citrus industry has been significantly impacted by severe HLB epidemics. To combat citrus HLB, in this study we implemented an integrated strategy that includes chemotherapy, thermotherapy, and additional nutrition treatment in three different field trials over three consecutive years. In these trials, only trees already showing HLB symptoms with Ct values ranging from 25.1 to 27.7 were selected for treatments. To assess the complex interactions, we used several methods for evaluating the effectiveness of integrated management, including the slopes (b) of the Ct increase (dy/dt), the pathogenic index (PI) and the decline index (DI) from Ct value and tree scores, and the therapeutic efficacies from PI and DI. This comprehensive analysis showed that most of the tested chemicals were effective to some degree in killing or suppressing the Las bacterium, with higher therapeutic efficacies seen for Grove B, where citrus trees were severely affected by HLB, and it had a higher number of psyllids, relative to Grove E and P in the first 2 years. Trunk-injected penicillin G potassium was the most effective chemical treatment in all groves, followed by Oxytetracycline Calcium Complex, and Silver Nitrate delivered as foliar sprays. Although the steam heat treatment and additional nutrition did not eliminate or suppress Las over the long term, these treatments did positively affect tree growth and recovery in the short term. Overall, our results provide new insights into HLB control method and strategy for integrated management for HLB epidemic plantations.