2003
DOI: 10.1007/s00468-003-0262-2
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Stomatal regulation in Douglas fir following a fungal-mediated chronic reduction in leaf area

Abstract: Pathogens can cause chronic premature needle abscission in coniferous species. To assess the potential impacts on tree productivity, stomatal regulation was investigated in Douglas fir with chronic stomatal occlusion and defoliation from varying levels of the Swiss needle cast (SNC) fungus, Phaeocryptopus gaeumannii. Levels of SNC disease and subsequent defoliation were manipulated by choosing six sites with varying levels of disease and by foliar applications of fungicides on six trees per site. Diurnal measu… Show more

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Cited by 13 publications
(5 citation statements)
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“…Only current-year foliage is colonized, and there appears to be no resistance to infection by the tree [19,20]. The fungus may be characterized as an endophyte or biotroph [9] because it does not kill cells of the leaf, and disease is caused when stomates of one-and two-year old leaves are occluded. Carbon uptake is directly related to percent of stomatal occlusion [9].…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Only current-year foliage is colonized, and there appears to be no resistance to infection by the tree [19,20]. The fungus may be characterized as an endophyte or biotroph [9] because it does not kill cells of the leaf, and disease is caused when stomates of one-and two-year old leaves are occluded. Carbon uptake is directly related to percent of stomatal occlusion [9].…”
Section: Discussionmentioning
confidence: 99%
“…The fungus may be characterized as an endophyte or biotroph [9] because it does not kill cells of the leaf, and disease is caused when stomates of one-and two-year old leaves are occluded. Carbon uptake is directly related to percent of stomatal occlusion [9]. Disease emergence is associated with increased colonization of needles, stomatal plugging, inoculum load, loss of needles, needle chlorosis, and reduced growth.…”
Section: Discussionmentioning
confidence: 99%
“…Moreover, defenses against diVerent classes of damage such as herbivores and pathogens may not oVer cross-protection, thus exacerbating the costs of defense (Faeth 1992;Saikkonen et al 2001). Indeed, the costs of defense may be great enough that leaf abscission becomes a viable alternative to defense (Hoad et al 1998;Manter and Kavanagh 2003).…”
Section: Introductionmentioning
confidence: 96%
“…The diversion of carbon and nitrogen away from primary metabolism may be exacerbated when it is necessary for a plant to produce defence compounds against damage caused by folivorous insects and/or phytopathogens simultaneously (Mith€ ofer & Boland, 2012). This may increase the rate of leaf abscission (Manter & Kavanagh, 2003) instead of offering cross-protection (Aldea et al, 2006). Plant nutritional quality and plant water relations may be impacted negatively through a reduction in photosynthesis as a result of folivory or polypathogen activities (Robert, Bancal, & Lannou, 2002;Santos, Alves-Silva, Cornelissen, & Fernandes, 2013;Snoeijers, P erez-Garcia, Joosten, & Wit, 2000).…”
Section: Introductionmentioning
confidence: 99%