Limited effect of thermal pruning on wild blueberry crop and its root-associated microbiota

Simon Morvan; Maxime C Paré; Anne Schmitt; Jean Lafond; Mohamed Hijri

doi:10.3389/fpls.2022.954935

Limited effect of thermal pruning on wild blueberry crop and its root-associated microbiota

Front Plant Sci. 2022 Aug 4:13:954935. doi: 10.3389/fpls.2022.954935. eCollection 2022.

Authors

Simon Morvan¹, Maxime C Paré², Anne Schmitt², Jean Lafond³, Mohamed Hijri^{1

4}

Affiliations

¹ Institut de Recherche en Biologie Vègétale, Département de sciences biologiques, Université de Montréal, Montréal, QC, Canada.
² Laboratoire sur les écosystèmes boréaux terrestres (EcoTer), Département des Sciences Fondamentales, Université du Québec à Chicoutimi, Chicoutimi, QC, Canada.
³ Direction générale des sciences et de la technologie, Agriculture et Agroalimentaire Canada, Gouvernement du Canada, Normandin, QC, Canada.
⁴ African Genome Center, Mohammed VI Polytechnic University, Ben Guerir, Morocco.

Abstract

Thermal pruning was a common pruning method in the past but has progressively been replaced by mechanical pruning for economic reasons. Both practices are known to enhance and maintain high yields; however, thermal pruning was documented to have an additional sanitation effect by reducing weeds and fungal diseases outbreaks. Nevertheless, there is no clear consensus on the optimal fire intensity required to observe these outcomes. Furthermore, fire is known to alter the soil microbiome as it impacts the soil organic layer and chemistry. Thus far, no study has investigated into the effect of thermal pruning intensity on the wild blueberry microbiome in agricultural settings. This project aimed to document the effects of four gradual thermal pruning intensities on the wild blueberry performance, weeds, diseases, as well as the rhizosphere fungal and bacterial communities. A field trial was conducted using a block design where agronomic variables were documented throughout the 2-year growing period. MiSeq amplicon sequencing was used to determine the diversity as well as the structure of the bacterial and fungal communities. Overall, yield, fruit ripeness, and several other agronomical variables were not significantly impacted by the burning treatments. Soil phosphorus was the only parameter with a significant albeit temporary change (1 month after thermal pruning) for soil chemistry. Our results also showed that bacterial and fungal communities did not significantly change between burning treatments. The fungal community was dominated by ericoid mycorrhizal fungi, while the bacterial community was mainly composed of Acidobacteriales, Isosphaerales, Frankiales, and Rhizobiales. However, burning at high intensities temporarily reduced Septoria leaf spot disease in the season following thermal pruning. According to our study, thermal pruning has a limited short-term influence on the wild blueberry ecosystem but may have a potential impact on pests (notably Septoria infection), which should be explored in future studies to determine the burning frequency necessary to control this disease.

Keywords: Vaccinium angustifolium Ait.; amplicon sequencing; ericoid mycorrhiza; microbial community; thermal pruning; wild blueberry.