Forest Decline Triggered by Phloem Parasitism-Related Biotic Factors in Aleppo Pine (<i>Pinus halepensis</i>)

Climate models predict increasing mean temperatures and reduced precipitation for Mediterranean ecosystems already subjected to major hydrological fluctuations. Forest decline phenomena relate extreme droughts or heat waves with other organisms, e.g., insects or microorganisms acting as pests, but t...

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Bibliographic Details
Main Authors: Luna Morcillo, Diego Gallego, Eudaldo González, Alberto Vilagrosa
Format: Article
Language:English
Published: MDPI AG 2019-07-01
Series:Forests
Subjects:
Online Access:https://www.mdpi.com/1999-4907/10/8/608
Description
Summary:Climate models predict increasing mean temperatures and reduced precipitation for Mediterranean ecosystems already subjected to major hydrological fluctuations. Forest decline phenomena relate extreme droughts or heat waves with other organisms, e.g., insects or microorganisms acting as pests, but their role needs to be elucidated. A biotic factor responsible for forest diseases is <i>Candidatus Phytoplasma pini</i> which is a phloem-parasitism that negatively affects Spanish pine forests in drought-prone areas. In several healthy and declining Aleppo pine stands, we monitored pine infection by PCR (Polimerase Chain Reation), determined the tree phloem tissue terpene composition, carbohydrate content, measured several relevant morpho-physiological variables and examined trees affected by bark beetles. PCR confirmed <i>C. P. pini</i> infection was widespread in all stands, regardless of to the presence of symptomatically affected trees. However, visible symptomatic decline only occurred in trees living under more stressful conditions. The terpene composition of pines in declining stands differed from those in healthy ones, and could be related with bark beetle attacks when pines were previously weakened by the phytoplasma disease. Our results indicate that biotic factors, such as <i>C. P. pini</i>, affecting phloem tissue may be triggering factors for drought-mediated forest decline and suggest that phloem diseases can play a key role in forest declining processes during extreme drought.
ISSN:1999-4907