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Sudden Oak Death Phytophthora ramorum

A Phytophthora tentaculata Pest Alert is now available!

A Phytophthora tentaculata Pest Alert is now available.  To date, P. tentaculata has been found infecting plants at three restoration sites – one in Monterey County and two in Alameda County.  It has not been found in the soil nor detected on adjacent native vegetation.  At the sites, the pathogen has been found on sticky monkey flower (Diplacus [=Mimulus]) and toyon (Heteromeles). Treatment, monitoring, and safeguarding at each location is ongoing to prevent spread.

Phytophthora tentaculata has also been found in five native plant nurseries to date in Butte, Monterey, Placer, and Santa Cruz Cos. on sticky monkey flower (Diplacus aurantiacus), toyon (Heteromeles arbutifolia), coffeeberry (Frangula californica), and Salvia mellifera. All infected plants were destroyed. Nearly 500 samples have been analyzed from native plant nurseries (voluntarily) as well as from additional restoration sites to test for pathogen presence.  In response to this situation, numerous native plant nurseries are now implementing best management practices, helping to insure that the best possible quality of plants are being grown. Surveys continue to determine if the pathogen occurs in undisturbed areas, particularly where the native plant nurseries have collected their propagative materials. These are the first detections of this Phytophthora in the US.  For more information, contact Kathy Kosta, CDFA, at kathy.kosta@cdfa.ca.gov.

New Publications

Hansen, E.M. 2015. Phytophthora Species Emerging as Pathogens of Forest Trees. Current Forestry Reports. DOI: 10.1007/s40725-015-0007-7.

Species of Phytophthora are prominent in lists of emerging threats to forest ecosystems. We explore the conditions leading to and the consequences of the emergence of some Phytophthora species from their presumptive coevolved roles in undisturbed forest ecosystems to destructive agents as invasive forest pathogens. Phytophthora species are widespread, relatively abundant, very diverse, and poorly understood in many relatively undisturbed forest ecosystems. Three examples are examined in detail to illustrate the range of pathways to emergence and the varied consequences to forest environments. Phytophthora lateralis causes Port-Orford cedar root disease in western North America and now Europe. Phytophthora ramorum is causing unprecedented mortality in oak and tanoak forests in California, as the cause of sudden oak death, and is killing planted larch in the UK, and Phytophthora cinnamomi kills trees in parts of the world where it has been introduced. Active programs are underway in each case to manage, if not eliminate, their damage. In no case, however, has eradication been achieved. Prevention, by blocking initial introduction, has the highest probability of success.

Roy, B.A.; Alexander, H.M.; Davidson, J.; Campbell, F.T.; Burdon, J.J.; Sniezko, R.; and Brasier, C. 2014. Increasing Forest Loss Worldwide from Invasive Pests Requires New Trade Regulations. Frontiers in Ecology and the Environment. 12(8): 457–465.

Loss of forests due to non-native invasive pests (including insects, nematodes, and pathogens) is a global phenomenon with profound population, community, ecosystem, and economic impacts. We review the magnitude of pest-associated forest loss worldwide and discuss the major ecological and evolutionary causes and consequences of these invasions. After compiling and analyzing a dataset of pest invasions from 21 countries, we show that the number of forest pest invasions recorded for a given country has a significant positive relationship with trade (as indicated by gross domestic product) and is not associated with the amount of forested land within that country. We recommend revisions to existing international protocols for preventing pest entry and proliferation, including prohibiting shipments of non-essential plants and plant products unless quarantined. Because invasions often originate from taxa that are scientifically described only after their introduction, current phytosanitary regulations – which target specific, already named organisms – are ineffective.

Stream monitoring will be expanded in the Northern Olympic Peninsula, WA for Phytophthora ramorum

Northern Olympic Peninsula, WA Phytophthora ramorum stream monitoring will be expanded in spring 2015 in an effort to identify the source of inoculum contaminating the Dungeness River near Sequim, WA.  The river was found positive twice in 2013 and is not in the vicinity of a P. ramorum-positive nursery.  To date, follow-up sampling of streams in the area have not yielded information about the inoculum source.  The Chastagner lab at Washington State University, Puyallup will oversee the additional monitoring through a volunteer program and increase efforts to genotype isolates and DNA samples from waterways to help clarify the inoculum origin.  Several stormwater retention ponds in Pierce County will also be monitored to determine if landscaped areas in new developments may harbor the pathogen.

2014 National P. ramorum Early Detection Survey of Forests Summary

2014 National P. ramorum Early Detection Survey of Forests Summary – Along the West Coast, California, Oregon, and Washington conducted stream surveys using bottle of bait (BOB) and/or leaf baiting.  In CA, 146 sites were sampled over 5 baiting periods, with 19 positive samples collected (13 from previously positive locations).  Six of the positives were from watersheds that had not previously tested positive (See the January COMTF report for more information.).  In OR, 11 sites were sampled over 19 baiting periods, resulting in the detection of 6 positive waterways.  The OR survey samples were tested via culturing and PCR, with PCR diagnostics identifying 10 samples that were not found through culturing.  In WA, both BOB and leaf mesh bag sampling were used.  The two positive samples found were with the bait bag sampling method (not BOB) and from the same stream.

Four of the 9 participating eastern states had 9 P. ramorum-positive stream samples – AL (4), FL (1), MS (2), and NC (2).  Two of the positive streams (AL-1; FL-1) have not been previously positive and are each associated with a positive nursery.  Another Alabama positive stream has not been previously positive but is not associated with a positive nursery.  Plans for vegetation sampling near this stream are underway.

Bottle of bait (BOB – whole leaves and leaf pieces together in a bottle of collected water) monitoring protocols were adopted to detect P. ramorum for the forest stream survey in 2014.  BOB whole leaves detected five positive streams and leaf pieces detected four. Nine environmental plant samples from Georgia were tested for P. ramorum, but all were negative.  As found in previous years (2010-2013), the spring (March – May) bait period resulted in more positive samples (7) than the late season (October – November; 2). In total, 665 BOB samples were processed from 85 different sites in 9 eastern states (AL, FL, GA, MS, NC, NY, PA, SC, and TX).