Affiliation:
1. Department of Agricultural Biology Colorado State University Fort Collins Colorado USA
2. Department of Forest Biological Sciences University of the Philippines Los Baños, College Laguna Philippines
3. USDA Forest Service, Forest Health Protection Lakewood Colorado USA
Abstract
AbstractNeedle diseases caused by pathogens within Rhytismataceae are increasing in frequency globally where pines are either a predominate species or are grown commercially, and yet remain poorly understood. Here, we provide background information on the current knowledge and management strategies of needle pathogens in the Rhytismataceae and discuss research opportunities using molecular tools to fill knowledge gaps. Many of the aggressive needle pathogens within this group lack morphological features to delimit species and are difficult to grow in axenic cultures, which complicates scientific investigations. Molecular research has greatly advanced knowledge of this unique group of pathogens. Nucleotide sequences from multiple gene loci identified greater diversity within this group of pathogens than previously thought, as new and cryptic species are being discovered in broader geographic regions. High throughput sequencing and analyses revealed that an endophytic lifestyle is a common trait among fastidious if not obligate needle pathogens within Rhytismataceae. Further, molecular analyses showed the impact these pathogens have on the diversity of endophytic microbiota is underestimated. Early detection in healthy‐looking needles using PCR‐based markers greatly improves capabilities for disease diagnosis and monitoring. Despite growing number of molecular studies on Rhytismataceae needle pathogens, fundamental questions on the taxonomy, phylogeny, ecology and pathology of many Rhytismataceae needle pathogens remain unanswered. Nonetheless, with the projected changes in the occurrence and severity of Rhytismataceae pathogens, increased accessibility to molecular tools vastly expands the potential to gain more insights into understudied needle pathosystems to help define and address its impact under changing environments and consequently inform forest disease management more effectively.