In-Field Thermal Treatment of Huanglongbing (HLB) infected Trees

Journal of Citrus Pathology Pub Date : 1900-01-01 DOI:10.5070/C411025141

L. Khot, S. E. Jones, P. Trivedi, M. Ehsani, N. Wang, J. Reyes-De-Corcuera

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Abstract

Author(s): Khot, L. R.; Jones, S. E.; Trivedi, P.; Ehsani, M. R.; Wang, N.; Reyes-De-Corcuera, J. I. | Abstract: To decrease Candidatus Liberibacter asiaticus titer and increase the productive life of infected trees, thermal treatment of orange trees was proposed. A moving greenhouse was developed to cover single trees during the summer of 2012. Four trees (~ 2.5×2.5×2.5 m) were treated, one tree per day, during the months of September (trees T1 through T3) and October (tree T4). From each tree, three symptomatic branches were sampled to determine microbial kill before (0 h) and at 2, 3, 4, and 5 h during the treatment. Temperature distribution throughout the canopy and on the sampled branches was also recorded. Maximal temperatures in the ranges 50 to 53 °C were reached at the top (2.4 m) of the canopy whereas at the bottom of the canopy (i.e., 0.6 m) maximal temperatures ranged from 36 to 43 °C. Due to varied micro-meteorological conditions during the treatment, temperatures of the T1 through T4 sampled branches reached above 40⁰C for 217, 166, 35, 228 min, respectively. For T1, T2 and T4 trees, average temperatures of the sampled branches reached above 45 °C for 87, 35, and 49 min or more. Attempts to quantitatively determine microbial kill by determining percent live bacteria at selected time intervals during thermal treatment was unreliable due to the very uneven distribution of initial proportion of live-to-dead bacteria and analysis variability. However, overall, after thermal treatments, live microbial populations decreased. These findings indicate that adequate thermal treatment of trees required forced convection air flow and supplemental heating.

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黄龙冰(HLB)侵染树木的田间热处理

作者:Khot, l.r.;琼斯，s.e.;Trivedi p;Ehsani, m.r.;王:;摘要为降低亚洲游离候选杆菌(Candidatus liberibacus asiaticus)的滴度，延长感染柑橘树的生产寿命，提出了对柑橘树进行热处理的方法。2012年夏天，一个移动温室被开发出来，覆盖单株树木。在9月(T1 ~ T3树)和10月(T4树)处理4棵树(~ 2.5×2.5×2.5 m)，每天1棵。从每棵树中抽取三个有症状的树枝，在处理前(0 h)和处理后2、3、4和5 h测定微生物杀灭情况。同时还记录了整个冠层和取样树枝上的温度分布。冠层顶部(2.4 m)的最高温度为50 ~ 53°C，冠层底部(0.6 m)的最高温度为36 ~ 43°C。由于处理期间不同的微气象条件，T1至T4取样树枝的温度分别达到40⁰C以上217、166、35和228分钟。对于T1、T2和T4树，采样树枝的平均温度达到45℃以上的时间分别为87、35和49 min以上。在热处理过程中，通过在选定的时间间隔内测定活菌的百分比来定量测定微生物杀灭度的尝试是不可靠的，因为初始活菌与死菌的比例分布非常不均匀，而且分析结果也存在可变性。然而，总体而言，经过热处理后，活微生物数量减少。这些发现表明，对树木进行充分的热处理需要强制对流气流和补充加热。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Citrus Pathology

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