22 research outputs found
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Electrical resistance and stem water relations in Verticillium dahliae infected red maples and Ceratocystis ulmi infected American elms.
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The relationship between electrical resistance of cambial tissues of acer saccharum and physiologic stress.
Hydraulic disruption and passive migration by a bacterial pathogen in oak tree xylem
Xylella fastidiosa (Xf) is a xylem-limited bacterial pathogen that causes leaf scorch symptoms in numerous plant species in urban, agricultural, and natural ecosystems worldwide. The exact mechanism of hydraulic disruption and systemic colonization of xylem by Xf remains elusive across all host plants. To understand both processes better, the functional and structural characteristics of xylem in different organs of both healthy and Xf-infected trees of several Quercus species were studied. Hydraulic conductivity (Ks) in Xf-infected petioles of Q. palustris and Q. rubra decreased significantly compared with healthy trees as the season progressed and plummeted to zero with the onset of scorch symptoms. Prior to the onset of symptoms, embolism was as much as 3.7 times higher in Xf-infected petioles compared with healthy controls and preceded significant reductions in Ks. Embolism likely resulted from pit membrane degradation during colonization of new petiole xylem and triggered the process that eventually led to vessel occlusion. Pit membrane porosity was studied using the following four methods to determine if a pathway exists in the xylem network of woody stems that allows for passive Xf migration: (i) calculations based on vulnerability to cavitation data, (ii) scanning electron micrographs, (iii) microsphere injections, and (iv) air seeding thresholds on individual vessels. All four methods consistently demonstrated that large pit membrane pores (i.e. greater than the diameter of individual Xf) occur frequently throughout the secondary stem xylem in several Quercus species. These large pores probably facilitate systemic colonization of the secondary xylem network and contribute to the high susceptibility to bacterial leaf scorch exhibited among these species
Dutch Elm Disease: What an Arborist Should Know
Volume: 42Start Page: 60End Page: 6
Spirituality and Interprofessional Healthcare Education: An Exploratory Study
Undergraduate and graduate programs for healthcare professions are inconsistent in curricular offerings and incorporation of spiritual training. This study reviewed perceptions and opinions about spiritual care held by students at an American university. Data were collected using the Spirituality and Spiritual Care Rating Scale and one open-ended question. Findings indicated that many students were comfortable incorporating spirituality into practice, and they desired additional training. As to how students would apply spirituality to their practice, themes of facilitating connection, holistic care, spiritual interventions, and benefits of spirituality were identified
The effects of Pierce's disease on leaf and petiole hydraulic conductance in Vitis vinifera
In this study, we test the hypothesis that the symptoms of Pierce’s Disease (PD) result from the occlusion of xylem conduits by the bacteria Xylella fastidiosa (Xf). Four treatments were imposed on greenhouse-grown Vitis vinifera cv. Chardonnay: well-watered and deficit-irrigated plants with and without petiole inoculation with Xf. The hydraulic conductance of the stem-petiole junction (kjun) and leaves (kleaf) were measured, and Xf concentrations were established by quantitative polymerase chain reaction (qPCR). Leaf hydraulic conductance decreased with increasing leaf scorch symptoms in both irrigation treatments. The positive relationship between Xf concentration and symptom formation in deficit-irrigated plants suggests that water-stress increases susceptibility to PD. In field-grown vines, water relations of symptomatic leaves were similar to naturally senescing leaves but differed from green control leaves. Overall, these results suggest that the development of PD symptoms represents a form of accelerated senescence as part of a systemic response of the plant to Xf infection