Abstract
In the last decade, the impact of needle blight fungal pathogens on the health status of forests in northern Spain has marked a turning point in forest production systems based on Pinus radiata species. Dothistroma needle blight caused by Dothistroma septosporum and D. pini, and brown spot needle blight caused by Lecanosticta acicola, coexist in these ecosystems. There is a clear dominance of L. acicola with respect to the other two pathogens and evidence of sexual reproduction in the area. Understanding L. acicola spore dispersal dynamics within climatic determinants is necessary to establish more efficient management strategies to increase the sustainability of forest ecosystems. In this study, spore counts of 15 spore traps placed in Pinus ecosystems were recorded in 2019 and spore abundance dependency on weather data was analysed using generalised additive models. During the collection period, the model that best fit the number of trapped spores included the daily maximum temperature and daily cumulative precipitation, which was associated to higher spore counts. The presence of conidia was detected from January and maximum peaks of spore dispersal were generally observed from September to November.
Highlights
Needle blights are some of the most seriously damaging diseases affecting the health of Pinus radiata in Spain
Needle blights identified in the study area include Dothistroma needle blight (DNB) caused by Dothistroma septosporum (Dorogin) Morelet and D. pini Hulbary, and brown spot needle blight caused by Lecanosticta acicola (Thümen) Sydow
We modeled the dependency of spore abundance on weather data, as analysed by generalised additive model (GAM), based on the dispersal patterns of conidiospores of L. acicola in P. radiata ecosystems that are representative of the Atlantic climate during 2019
Summary
Needle blights are some of the most seriously damaging diseases affecting the health of Pinus radiata in Spain. The largest outbreak of needle diseases in the recorded history of P. radiata in northern Spain began in 2018 and has led to a significant modification of the landscape from a serious reconsideration of silviculture in the forestry sector. Needle blights identified in the study area include Dothistroma needle blight (DNB) caused by Dothistroma septosporum (Dorogin) Morelet and D. pini Hulbary, and brown spot needle blight caused by Lecanosticta acicola (Thümen) Sydow. The latter is by far the most frequent and abundant in P. radiata plantations [1]. Changes in the climate were associated with its spreading in the northeastern United States and Canada [3,4,5]
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