Gotowe bibliografie tematyczne / Forest disease

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Gotowa bibliografia na temat „Forest disease”

Autor: Grafiati
Data publikacji: 2 czerwca 2025
Data aktualizacji: 22 czerwca 2025

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Artykuły w czasopismach na temat "Forest disease"

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x, Adeen, and Preeti Sondhi. "Random Forest Based Heart Disease Prediction." International Journal of Science and Research (IJSR) 10, no. 2 (2021): 1669–72. https://doi.org/10.21275/sr21225214148.

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Singh, Pritam. "Research and management strategies for major tree diseases in Canada: Synthesis Part 1." Forestry Chronicle 69, no. 2 (1993): 151–62. http://dx.doi.org/10.5558/tfc69151-2.

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Forests are diverse and complex associations of plant and animal life that are influenced considerably by their environment and man, and by their interactions. Forest pests, including pathogens, form an important component of the forest ecosystem, and their management is an integral part of forest management. There is, however, a need to obtain a better understanding of these pests, and their relationships with plants and other factors in the environment.This article attempts to compile most of the available information about research on major tree diseases in Canada, particularly that which deals with or has led to the development of strategies to control or manage those diseases. A brief information on Canada's forest resource and the losses caused by these diseases and by other damage problems is also included. Key words: forests, tree diseases, research strategies, disease management strategies, disease losses, integrated pest management.
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Park, Kwang-Hi. "Analysis of Urban Forest Healing Program Expected Values, Needs, and Preferred Components in Urban Forest Visitors with Diseases: A Pilot Survey." International Journal of Environmental Research and Public Health 19, no. 1 (2022): 513. http://dx.doi.org/10.3390/ijerph19010513.

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Although the effectiveness of urban forest therapy has been studied and proven, most people are not well aware of the positive healing effects of urban forests that are easily accessible in daily life compared to the known healing effect of forests located outside urban areas. In addition, there has been a study on the analysis of urban forest healing program needs in the general population, but there is a lack of evidence on the expected values and needs of urban forest healing for people with diseases. Therefore, this pilot survey aimed to investigate the expected values, needs, and preferred components of urban forest healing programs in urban forest visitors with disease via an online user survey and see if there were any differences in the purpose of the urban forest visits and expected values of urban forest healing depending on the type of disease. The survey was conducted on 294 urban forest visitors with diseases. About 79% of respondents agreed with the healing effects of urban forest, however most respondents expected healing effects on mental health rather than on physical health (“mood change” was the highest with score of 4.43/5, followed by “reliving stress” (4.35/5) and “mental and physical stability” (4.31/5)). In addition, more than 82.0% of respondents agreed to participate in the program if a healing program for disease was developed. The results of the current pilot survey indicate that the purpose of the urban forest visits and expected values of urban forest healing were largely not different by the type of disease, and people with disease had a relatively lower awareness and lower expected values of urban forest healing effects on physical health, but high demand for the program. Urban forest therapy programs should be developed based on the specific clinical characteristics of the disease to maximize the effectiveness of the program. Additionally, policies should be implemented to promote the beneficial effects of urban forest healing not only for mental health but also for physical health.
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Nevill, R. J., P. M. Hall, and J. Beale. "Forest health research needs in British Columbia." Forestry Chronicle 71, no. 4 (1995): 489–96. http://dx.doi.org/10.5558/tfc71489-4.

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To determine the needs and priorities for research on specific topics concerning forest health in British Columbia, a questionnaire was developed and distributed to forest management agencies, forest industry and other research agencies. Response was received from all groups contacted (Pacific Forestry Center [Canadian Forest Service]; BC Ministry of Forests; BC Ministry of Environment Lands & Parks; Industry; and Universities) throughout the province. Forty-two insect, disease, and mammal pests were identified for research. Research priorities for insects and diseases were equally distributed and of greater importance than mammals. Diseases most frequently identified included Armillaria root disease and tomentosus root disease, while the mountain pine beetle and the white pine weevil were foremost among insects. Broadly based issues included pest responses to alternative silvicultural systems, quantification of pest caused losses, and standardized survey methodology between agencies. Lower profile research concerns included the pinewood nematode, nursery pests, and hardwood diseases. The potential introduction into the province of exotic pests such as the Gypsy moth was identified as an emerging issue. Key words: forest health, research priorities, forest insects, disease, mammal pests
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Tucker-Mohl, Katherine, Patrick Hart, and Carter T. Atkinson. "Can lowland dry forests represent a refuge from avian malaria for native Hawaiian birds?" Pacific Conservation Biology 16, no. 3 (2010): 181. http://dx.doi.org/10.1071/pc100181.

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Hawaii?s native birds have become increasingly threatened over the past century. Introduced mosquito borne diseases such as avian malaria may be responsible for the near absence of endemic Hawaiian forest birds in low-elevation habitats. The recent recognition that some native Hawaiian forest birds may be repopulating moist lowland habitats as a result of evolved resistance to this disease has increased the conservation value of these areas. Here, we investigate whether remnant low elevation dry forests on Hawaii Island provide natural ?refuges? from mosquito-transmitted malaria by nature of their low rainfall and absence of suitable natural sources of water for mosquito breeding. Unlike lowland wet forests where high rates of disease transmission may be selecting for disease resistance, lowland dry forests may provide some refuge for native forest birds without natural resistance to malaria. We mistnetted forest birds in two lowland dry forests and tested all native birds by microscopy and serology for avian malaria caused by the Plasmodium relictum parasite. We also conducted surveys for standing water and mosquito larvae. Overall prevalence of infections with Plasmodium relictum in the Hawaii Amakihi Hemignathus virens virens was 15%. Most infected birds had lowlevel parasitemias, suggesting chronic infections. Although avian malaria is present in these lowland dry forest Amakihi populations, infection rates are significantly lower than in wet forest populations at similar elevations. Sources of breeding mosquitoes in these forests appeared to be largely anthropogenic; thus, there is potential to manage dry forests as mosquito-free habitat for Hawaii Amakihi and other Hawaiian forest birds.
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Bhargavi, PG, and Pranathi Kavi. "Kyasanur forest disease." Indian Journal of Otology 23, no. 1 (2017): 56. http://dx.doi.org/10.4103/0971-7749.199504.

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Holbrook, Michael R. "Kyasanur forest disease." Antiviral Research 96, no. 3 (2012): 353–62. http://dx.doi.org/10.1016/j.antiviral.2012.10.005.

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Sharma, SN. "Kyasanur Forest Disease: Vector Surveillance and its Control." Journal of Communicable Diseases 51, no. 02 (2019): 38–44. http://dx.doi.org/10.24321/0019.5138.201915.

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Shyma V.H, Shyma V. H., Kutty M. V. H. Kutty M.V.H, and RemyaV RemyaV. "Kyasanur Forest Disease - an Emerging Threat in Kerala." International Journal of Scientific Research 3, no. 7 (2012): 367–68. http://dx.doi.org/10.15373/22778179/july2014/112.

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Al-Obaidi, Muhannad H. Y. "Disease of forest tree seedlings (Article Review)." Kirkuk University Journal For Agricultural Sciences 14, no. 4 (2023): 83–90. http://dx.doi.org/10.58928/ku23.14408.

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Nursery are one of the most important reasons for the success and progress of the agricultural renaissance, as it depends on the application of various advanced scientific methods and the use of Nursery of various types in the propagation and production of forest seedlings and others. A greenhouse is a place where small plants are produced to plant them in gardens, fields, and trees. The plants produced by the greenhouse vary between ornamental plants and flowers, fruit plants, vegetables, and forest trees, and Nursery are often held for commercial purposes.The incidence of Nursery diseases increases from what happens in the forests through the increase in service operations and attention to irrigation and fertilization and not sterilizing the soil and seeds, as this appears on the resulting seedlings, and the seedlings resulting from Nursery can be a source of transmission of infection when artificial afforestation is performed. Therefore, we must monitor and ensure the safety of the productive seedlings. The disease of Root rot and seedling disease Damping-off are one of the most critical diseases found in forest Nursery and the most widespread throughout the hot and cold world. As these diseases affect many forest plants, it is preferable to study them to avoid infecting forest species through the correct management of these Nursery by sterilizing the soil and seeds, as well as regular irrigation and correct fertilization.
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Rozprawy doktorskie na temat "Forest disease"

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Telionis, Pyrros A. "Lyme Disease and Forest Fragmentation in the Peridomestic Environment." Thesis, Virginia Tech, 2020. http://hdl.handle.net/10919/99281.

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Over the last 20 years, Lyme disease has grown to become the most common vector-borne disease affecting Americans. Spread in the eastern U.S. primarily by the bite of Ixodes scapularis, the black-legged tick, the disease affects an estimated 329,000 Americans per year. Originally confined to New England, it has since spread across much of the east coast and has become endemic in Virginia. Since 2010 the state has averaged 1200 cases per year, with 200 annually in the New River Health District (NRHD), the location of our study. Efforts to geographically model Lyme disease primarily focus on landscape and climatic variables. The disease depends highly on the survival of the tick vector, and white-footed mouse, the primary reservoir. Both depend on the existence of forest-herbaceous edge-habitats, as well as warm summer temperatures, mild winter lows, and summer wetness. While many studies have investigated the effect of forest fragmentation on Lyme, none have made use of high-resolution land cover data to do so at the peridomestic level. To fill this knowledge gap, we made use of the Virginia Geographic Information Network’s 1-meter land cover dataset and identified forest-herbaceous edge-habitats for the NRHD. We then calculated the density of these edge-habitats at 100, 200 and 300-meter radii, representing the peridomestic environment. We also calculated the density of <2-hectare forest patches at the same distance thresholds. To avoid confounding from climatic variation, we also calculated mean summer temperatures, total summer rainfall, and number of consecutive days below freezing of the prior winters. Adding to these data, elevation, terrain shape index, slope, and aspect, and including lags on each of our climatic variables, we created environmental niche models of Lyme in the NRHD. We did so using both Boosted Regression Trees (BRT) and Maximum Entropy (MaxEnt) modeling, the two most common niche modeling algorithms in the field today. We found that Lyme is strongly associated with higher density of developed-herbaceous edges within 100-meters from the home. Forest patch density was also significant at both 100-meter and 300-meter levels. This supports the notion that the fine scale peridomestic environment is significant to Lyme outcomes, and must be considered even if one were to account for fragmentation at a wider scale, as well as variations in climate and terrain.<br>M.S.<br>Lyme disease is the most common vector-borne disease in the United States today. Infecting about 330,000 Americans per year, the disease continues to spread geographically. Originally found only in New England, the disease is now common in Virginia. The New River Health District, where we did our study, sees over 200 cases per year. Lyme disease is mostly spread by the bite of the black-legged tick. As such we can predict where Lyme cases might be found if we understand the environmental needs of these ticks. The ticks themselves depend on warm summer temperatures, mild winter lows, and summer wetness. But they are also affected by forest fragmentation which drives up the population of white-footed mice, the tick’s primary host. The mice are particularly fond of the interface between forests and open fields. These edge habitats provide food and cover for the mice, and in turn support a large population of ticks. Many existing studies have demonstrated this link, but all have done so across broad scales such as counties or census tracts. To our knowledge, no such studies have investigated forest fragmentation near the home of known Lyme cases. To fill this gap in our knowledge, we made use of high-resolution forest cover data to identify forest-field edge habitats and small isolated forest patches. We then calculated the total density of both within 100, 200 and 300 meters of the homes of known Lyme cases, and compared these to values from non-cases using statistical modeling. We also included winter and summer temperatures, rainfall, elevation, slope, aspect, and terrain shape. We found that a large amount of forest-field edges within 100 meters of a home increases the risk of Lyme disease to residents of that home. The same can be said for isolated forest patches. Even after accounting for all other variables, this effect was still significant. This information can be used by health departments to predict which neighborhoods may be most at risk for Lyme. They can then increase surveillance in those areas, warn local doctors, or send out educational materials.
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Mohd, Salim @. Halim Jamilah. "Tree resistance and responsiveness to mechanical damage and fungal pathogens in dipterocarp forest of Sabah, Malaysia." Thesis, University of Aberdeen, 2009. http://digitool.abdn.ac.uk:80/webclient/DeliveryManager?pid=130838.

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A survey of dipterocarp forest in four sites revealed that the incidence of stem canker was relatively low but high localized incidences were recorded. No consistent association was obtained between the presence of mechanical damage and cankers. Cankers occurred more frequently on dipterocarps and less frequently on euphorbs. Field studies and experimental manipulations were used to compare sapling resistance and responsiveness to wounding and stem breakage in relatively nutrient-rich, alluvial forest and relatively nutrient-poor, sandstone ridge forest. Species found on sandstone ridges showed greater resistance to damage (e.g., greater stem flexibility, narrower crowns) than those on alluvial soils. Species common on alluvial soils tended to be more responsive to damage (e.g., faster wound closure rates, more likely to re-sprout). Results from manipulation experiments conducted on pot-grown seedlings were consistent with results from the field studies, where conditions of greater nutrient availability, saplings closed wounds at faster rates, had less flexible stems, more narrow crowns, and lower levels of foliar total phenolics. Species showed differential rezones to resource availability which, in part, may relate to contrasting strategies for investment in passive defence (i.e., resins and phenolics) over investment in growth. Through their narrower crowns, greater whole stem flexibility, and lesser stem taper, tree species characteristic of sandstone ridges had greater resistance to mechanical damage from debris falling from above than congeneric species characteristic of alluvial soils. Tree species characteristic of alluvial soils were more responsive to damage than congeners on sandstone ridges, by producing earlier and longer sprouts following stem snapping and more rapid rates of wound closure following wounding.
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Naish, Suchithra. "Spatial and temporal analysis of Barmah Forest virus disease in Queensland, Australia." Thesis, Queensland University of Technology, 2012. https://eprints.qut.edu.au/55047/1/Suchithra_Naish_Thesis.pdf.

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Barmah Forest virus (BFV) disease is one of the most widespread mosquito-borne diseases in Australia. The number of outbreaks and the incidence rate of BFV in Australia have attracted growing concerns about the spatio-temporal complexity and underlying risk factors of BFV disease. A large number of notifications has been recorded continuously in Queensland since 1992. Yet, little is known about the spatial and temporal characteristics of the disease. I aim to use notification data to better understand the effects of climatic, demographic, socio-economic and ecological risk factors on the spatial epidemiology of BFV disease transmission, develop predictive risk models and forecast future disease risks under climate change scenarios. Computerised data files of daily notifications of BFV disease and climatic variables in Queensland during 1992-2008 were obtained from Queensland Health and Australian Bureau of Meteorology, respectively. Projections on climate data for years 2025, 2050 and 2100 were obtained from Council of Scientific Industrial Research Organisation. Data on socio-economic, demographic and ecological factors were also obtained from relevant government departments as follows: 1) socio-economic and demographic data from Australian Bureau of Statistics; 2) wetlands data from Department of Environment and Resource Management and 3) tidal readings from Queensland Department of Transport and Main roads. Disease notifications were geocoded and spatial and temporal patterns of disease were investigated using geostatistics. Visualisation of BFV disease incidence rates through mapping reveals the presence of substantial spatio-temporal variation at statistical local areas (SLA) over time. Results reveal high incidence rates of BFV disease along coastal areas compared to the whole area of Queensland. A Mantel-Haenszel Chi-square analysis for trend reveals a statistically significant relationship between BFV disease incidence rates and age groups (ƒÓ2 = 7587, p<0.01). Semi-variogram analysis and smoothed maps created from interpolation techniques indicate that the pattern of spatial autocorrelation was not homogeneous across the state. A cluster analysis was used to detect the hot spots/clusters of BFV disease at a SLA level. Most likely spatial and space-time clusters are detected at the same locations across coastal Queensland (p<0.05). The study demonstrates heterogeneity of disease risk at a SLA level and reveals the spatial and temporal clustering of BFV disease in Queensland. Discriminant analysis was employed to establish a link between wetland classes, climate zones and BFV disease. This is because the importance of wetlands in the transmission of BFV disease remains unclear. The multivariable discriminant modelling analyses demonstrate that wetland types of saline 1, riverine and saline tidal influence were the most significant risk factors for BFV disease in all climate and buffer zones, while lacustrine, palustrine, estuarine and saline 2 and saline 3 wetlands were less important. The model accuracies were 76%, 98% and 100% for BFV risk in subtropical, tropical and temperate climate zones, respectively. This study demonstrates that BFV disease risk varied with wetland class and climate zone. The study suggests that wetlands may act as potential breeding habitats for BFV vectors. Multivariable spatial regression models were applied to assess the impact of spatial climatic, socio-economic and tidal factors on the BFV disease in Queensland. Spatial regression models were developed to account for spatial effects. Spatial regression models generated superior estimates over a traditional regression model. In the spatial regression models, BFV disease incidence shows an inverse relationship with minimum temperature, low tide and distance to coast, and positive relationship with rainfall in coastal areas whereas in whole Queensland the disease shows an inverse relationship with minimum temperature and high tide and positive relationship with rainfall. This study determines the most significant spatial risk factors for BFV disease across Queensland. Empirical models were developed to forecast the future risk of BFV disease outbreaks in coastal Queensland using existing climatic, socio-economic and tidal conditions under climate change scenarios. Logistic regression models were developed using BFV disease outbreak data for the existing period (2000-2008). The most parsimonious model had high sensitivity, specificity and accuracy and this model was used to estimate and forecast BFV disease outbreaks for years 2025, 2050 and 2100 under climate change scenarios for Australia. Important contributions arising from this research are that: (i) it is innovative to identify high-risk coastal areas by creating buffers based on grid-centroid and the use of fine-grained spatial units, i.e., mesh blocks; (ii) a spatial regression method was used to account for spatial dependence and heterogeneity of data in the study area; (iii) it determined a range of potential spatial risk factors for BFV disease; and (iv) it predicted the future risk of BFV disease outbreaks under climate change scenarios in Queensland, Australia. In conclusion, the thesis demonstrates that the distribution of BFV disease exhibits a distinct spatial and temporal variation. Such variation is influenced by a range of spatial risk factors including climatic, demographic, socio-economic, ecological and tidal variables. The thesis demonstrates that spatial regression method can be applied to better understand the transmission dynamics of BFV disease and its risk factors. The research findings show that disease notification data can be integrated with multi-factorial risk factor data to develop build-up models and forecast future potential disease risks under climate change scenarios. This thesis may have implications in BFV disease control and prevention programs in Queensland.
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Ratliff, William Seth. "Demography and Disease of the Rare Shrub Buckleya distichophylla (Santalaceae) in Northeastern Tennessee." Digital Commons @ East Tennessee State University, 2015. https://dc.etsu.edu/honors/304.

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Piratebush (Buckleya distichophylla (Nutt.) Torr.) is a rare, hemiparasitic shrub with the only extant populations in western North Carolina, northeastern Tennessee, and southwestern Virginia. The preferred natural hosts of piratebush, Carolina and eastern hemlocks, have seen sharp declines over the last decade due to the invasive hemlock woolly adelgid. Virginia pine, another important host of piratebush, is also susceptible to disease, specifically Cronartium appalachianum, a rust fungus for which piratebush is the secondary host. This study described and analyzed current demographic parameters of three Tennessee piratebush populations. Additionally, spatial patterns of disease and demographic characters were analyzed. These data were compared to data from previous censuses to infer the impacts of diseases on piratebush and its host. All three populations were relatively stable in numbers and age structure over the past thirty years. Plant height and stems per shrub were similar among populations and stable over time. Seedlings represented 14%-19% of populations and non-flowering plants 33%-41% of populations. Two populations had an equal sex ratio and one population was male-biased. Disease prevalence was similar among populations but disease was more severe at Temple Ridge. The effects of hemlock decline were most acute at the Temple Ridge population where areas of high hemlock decline were associated with lower vigor piratebush individuals. Piratebush individuals near Virginia pines were more likely to be infected by C. appalachianum, and individuals infected by the rust fungus were more likely to have lower vigor. If hemlock decline is causing a piratebush host shift toward Virginia pine, piratebush populations may also decline because of potential enhanced infection by C. appalachianum. Treatment to prevent HWA infestation may be needed because of its effectiveness in improving the health of both hemlock and piratebush populations.
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Rabin, Daniel. "Using Computer Imaging to Assess Visual Impacts of Forest Insect and Disease Pests." DigitalCommons@USU, 1989. https://digitalcommons.usu.edu/etd/6446.

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Forest insect and disease pests alter the appearance of trees, thereby impacting visual resources. Because of the complexity of most forest landscapes, the degree of visual impact of pest-infested forest stands is difficult to quantify. This paper describes a method of measuring visual impacts of pest-infested forest stands. Photographs of healthy Ponderosa pine trees were entered into a computer video-image-processing system. Using this system, images of trees were altered to simulate different degrees of infestation by limb rust, a forest pathogen. The altered and unaltered images were shown to groups of observers who rated the scenes in terms of "scenic beauty." The great majority of individuals were able to detect a change in the appearance of trees infected with limb rust disease even when only small sections of a tree were altered. There was also general agreement within the groups of observers that the presence of limb rust disease had a detrimental effect on the visual quality of the forest scenes. The tests also suggested that the location of infestation in the tree crown, the amount of crown mortality, and the number of infected Ponderosa pine in a stand influenced the degree to which visual quality was impacted.
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Lygis, Vaidotas. "Root rot in north-temperate forest stands : biology, management and communities of associated fungi /." Uppsala : Department of Forest Mycology and Pathology, Swedish University of Agricultural Sciences, 2005. http://epsilon.slu.se/200504.pdf.

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Sorouri-Zanjani, Rahim. "Isolation and antigenic characterisation of UK isolates of Borrelia burgdorferi." Thesis, University of Southampton, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.239412.

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Deguise, Isabelle Emiola. "Movements of adult western toads, Bufo boreas, in a managed forest landscape and the incidence of a disease in southwestern British Columbia." Thesis, University of British Columbia, 2007. http://hdl.handle.net/2429/403.

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Amphibians are declining dramatically around the globe, due primarily to two major threats: habitat destruction and emerging infectious diseases. The western toad, Bufo boreas, is an IUCN red-listed species thought to be affected by both these factors. The objectives of this thesis were to (1) determine how forest fragmentation affects western toad movement behaviour; and (2) determine if there is any evidence of the infectious disease, the chytrid fungus (Batrachochytrium dendrobatidis), in this species in British Columbia. I used radio-telemetry to follow daily movement patterns of 23 adult male toads in a fragmented landscape near Vancouver, BC, composed of forest patches and small, recent clear-cuts. Movement parameters were analyzed using a Geographic Information System (GIS) and mixed effects models. Results showed that toads in forests were able to perceive clear-cut edges from as far as 150 m. Greater than 60% of toads released in forest patches actively chose to enter the clear-cuts from adjacent forests, indicating high boundary permeability. In addition, toad movement parameters were not significantly reduced in these disturbed environments, suggesting that clear-cuts do not restrict movement. Although toads appear to favour these disturbed environments, further research is required in larger, more realistically sized clear-cuts. To investigate the prevalence of the chytrid fungus in southwestern British Columbia, I tested a breeding population of western toads in a protected area. Results showed a 28% infection rate, although no toads showed any visual signs of the disease. These results provide the first evidence of the chytrid fungus in western toads in British Columbia and suggest that the disease is potentially more widespread that currently documented. The results of my research suggest that the western toad may not be affected by small scale forest harvesting. In addition, my results support the hypothesis that western toads are reservoirs for the chytrid fungus. Although most populations in Canada appear to be faring well, long-term population monitoring and further testing for chytrid prevalence are required. To minimize the likelihood of western toads experiencing the dramatic declines that are presently taking place in the United States, protecting vital habitats and preventing the spread of chytrid through public awareness are required.
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Hebertson, Elizabeth G. "Associations of Armillaria Root Disease in Jack Pine with Arceuthobium Americanum." DigitalCommons@USU, 1995. https://digitalcommons.usu.edu/etd/7264.

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Relationships between jack pine dwarf mistletoe (Arceuthobium americanum Nutt. ex Engelm.) and Armillaria root disease (Armillaria ostoyae (Romagn.) Herink) were examined to determine how these two disease agents contribute to jack pine (Pinus banksiana Lamb.) decline and mortality in the Belair Provincial Forest, Manitoba, Canada. The incidence and extent of Armillaria root disease was strongly related to tree vigor. Dwarf mistletoe infection did not affect either the incidence of Armillaria or the mean percentage of root system colonization within vigorous, declining, and dead classes of trees. However, field observations and other analyses indicate that dwarf mistletoe was primary responsible for jack pine decline and mortality. In dwarf mistletoe mortality centers, Armillaria appeared to act opportunistically, extensively colonizing only the stressed trees. Analysis of distributions of percent Armillaria colonization revealed that rapid root system colonization occurred just prior to, or at the time of tree death.
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Wann, Steven R. "In vitro isolation and propagation of mammatoxin-resistant aspen." Diss., Georgia Institute of Technology, 1985. http://hdl.handle.net/1853/5742.

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Książki na temat "Forest disease"

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Canada, Canada Forestry. Green alert: Forest insect & disease survey. Forestry Canada, 1989.

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Filip, Gregory M. Forest disease ecology and management. Oregon State University Extension Service, 1995.

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Forestry, New Zealand Ministry of. Forest disease contingency plan: Industry version. Ministry of Forestry, 1996.

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United States. Forest Service. Southwestern Region, ed. Forest insect and disease field guide. Forest Pest Management, USDA Forest Service, Southwestern Region, 1992.

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F, Lehmkuhl John, United States Forest Service, and Pacific Northwest Research Station (Portland, Or.), eds. Eastside forest ecosystem health assessment.: Part I : vegetation pattern and insect and disease hazards. U.S. Dept. of Agriculture, Forest Service, Pacific Northwest Research Station, 1994.

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United States. Bureau of Land Management. Medford District. Managing for forest health: Insects and disease. U.S. Department of the Interior, Bureau of Land Management, Medford District Office, 2004.

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Filip, Gregory M. Forest disease ecology and management in Oregon. Oregon State University Extension Service, 2003.

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Centre, Laurentian Forestry, and Canadian Forest Service, eds. The natural defences of trees against injury and disease. Canadian Forest Service, Laurentian Forestry Centre, 2005.

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Dustin, Wittwer, Boughton Jerry, United States. Forest Health Protection, and Alaska Division of Forestry, eds. Forest health protection report: Forest insect and disease conditions in Alaska, 2000. Forest Health Protection, State and Private Forestry, Alaska Region, USDA Forest Service, 1998.

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Estay, Sergio A., ed. Forest Pest and Disease Management in Latin America. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-35143-4.

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Części książek na temat "Forest disease"

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Puterka, Gary J., D. Michael Glenn, George Hangay, et al. "Kyasanur Forest Disease." In Encyclopedia of Entomology. Springer Netherlands, 2008. http://dx.doi.org/10.1007/978-1-4020-6359-6_1643.

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Narayan, Krishna Gopal, Dharmendra Kumar Sinha, and Dhirendra Kumar Singh. "Kyasanur Forest Disease." In Handbook of Management of Zoonoses. Springer Nature Singapore, 2024. https://doi.org/10.1007/978-981-99-9885-2_23.

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Rastogi, Meghana, and Sunit K. Singh. "Kyasanur Forest Disease." In Neglected Tropical Diseases. Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-68493-2_12.

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Dixon, Wayne N., Edward L. Barnard, Carl W. Fatzinger, and Thomas Miller. "Insect and Disease Management." In Forest Regeneration Manual. Springer Netherlands, 1991. http://dx.doi.org/10.1007/978-94-011-3800-0_20.

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Chaudhary, Alok Kumar, Mukesh Kumar Srivastava, Pradeep Kumar, Renu Singh, and Shruti Bhatt. "Kyasanur Forest Disease (KFD)." In The Handbook of Zoonotic Diseases of Goats. CABI, 2024. http://dx.doi.org/10.1079/9781800622852.0028.

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Mitman, Gregg. "A Virus in the Forest." In Rural Disease Knowledge. Routledge, 2024. http://dx.doi.org/10.4324/9781003438984-7.

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Dell, B., and N. Malajczuk. "Jarrah dieback — A disease caused by Phytophthora cinnamomi." In The Jarrah Forest. Springer Netherlands, 1989. http://dx.doi.org/10.1007/978-94-009-3111-4_6.

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Cartwright, Virginia. "Pine Forest and Sunlight." In Architectural Factors for Infection and Disease Control. Routledge, 2022. http://dx.doi.org/10.4324/9781003214502-5.

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Kaushal, Himanshu, Shalini Das, Ramesh S. Kartaskar, Mahesh M. Khalipe, and Tushar Chiplunkar. "Kyasanur Forest Disease: A Neglected Zoonotic Disease of India." In Emerging Human Viral Diseases, Volume I. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-2820-0_16.

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Nichter, Mark. "Kyasanur Forest Disease: An Ethnography of a Disease of Development." In Medical Anthropology. Routledge, 2023. http://dx.doi.org/10.4324/9781315249360-38.

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Streszczenia konferencji na temat "Forest disease"

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Aadhithiyan, S., and S. Mythili. "Improved Random Forest Algorithm for Parkinson’s Disease Classification." In 2024 Third International Conference on Electrical, Electronics, Information and Communication Technologies (ICEEICT). IEEE, 2024. http://dx.doi.org/10.1109/iceeict61591.2024.10718620.

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Zhang, Ying, and Yi Qu. "Review of Forest Pest and Disease Monitoring Technologies." In 2024 5th International Conference on Computers and Artificial Intelligence Technology (CAIT). IEEE, 2024. https://doi.org/10.1109/cait64506.2024.10963235.

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P, Malarkodi, Arun M, Manikandan R, and Ramkumar S. "Cardiovascular Disease Prediction Using Machine Learning-Random Forest Technique." In 2024 5th International Conference on Electronics and Sustainable Communication Systems (ICESC). IEEE, 2024. http://dx.doi.org/10.1109/icesc60852.2024.10689896.

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T, Shruthi, Srimathi P, and Janani S. "Cardiac Disease Diagnosis from Echocardiogram using Random Forest Classifier." In 2024 5th International Conference on Data Intelligence and Cognitive Informatics (ICDICI). IEEE, 2024. https://doi.org/10.1109/icdici62993.2024.10810993.

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Reddy, T. Sridhar, N. Leelavathy, B. Gnaneswarara Rao, P. Kavya Keerthi, I. Kumar Chandra, and T. Rambabu. "Speech Insight: Parkinson's Disease Diagnosis Using Random Forest Classifier." In 2025 6th International Conference on Mobile Computing and Sustainable Informatics (ICMCSI). IEEE, 2025. https://doi.org/10.1109/icmcsi64620.2025.10883452.

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T, Tanuja K., Shamyuktha V. P, Anushree N, and J. Dhivya. "Predictive Analysis Of Cardiovascular Disease Using Random Forest Algorithm." In 2025 3rd International Conference on Advancements in Electrical, Electronics, Communication, Computing and Automation (ICAECA). IEEE, 2025. https://doi.org/10.1109/icaeca63854.2025.11012347.

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Banerjee, Deepak. "Advanced Fig Tree Disease Identification using CNN-Random Forest Technique." In 2024 Second International Conference on Intelligent Cyber Physical Systems and Internet of Things (ICoICI). IEEE, 2024. http://dx.doi.org/10.1109/icoici62503.2024.10696815.

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Devi, A., and T. Nirmal Raj. "Enhanced Heart Disease Prediction Through Optimized Ensemble Random Forest Model." In 2024 4th International Conference on Sustainable Expert Systems (ICSES). IEEE, 2024. https://doi.org/10.1109/icses63445.2024.10763375.

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Yashu, Vinay Kukreja, Prateek Srivastava, Ashish Garg, and Shanmugasundaram Hariharan. "Synergizing CNN and Random Forest for Accurate Cattle Disease Identification." In 2024 IEEE International Conference on Information Technology, Electronics and Intelligent Communication Systems (ICITEICS). IEEE, 2024. http://dx.doi.org/10.1109/iciteics61368.2024.10624999.

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Yashu and Amanveer Singh. "Optimized Rice Disease Identification Using CNN and Random Forest Techniques." In 2024 5th IEEE Global Conference for Advancement in Technology (GCAT). IEEE, 2024. https://doi.org/10.1109/gcat62922.2024.10923898.

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Raporty organizacyjne na temat "Forest disease"

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Bentz, Barbara J. Forest Insect and Disease Tally System (FINDIT) user manual. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 2000. http://dx.doi.org/10.2737/rmrs-gtr-49.

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Klopfenstein, Ned B., Mee-Sook Kim, John W. Hanna, Bryce A. Richardson, and John E. Lundquist. Approaches to predicting potential impacts of climate change on forest disease: an example with Armillaria root disease. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 2009. http://dx.doi.org/10.2737/rmrs-rp-76.

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Swanston, Christopher W., Leslie A. Brandt, Patricia R. Butler-Leopold, et al. Adaptation Strategies and Approaches for California Forest Ecosystems. U.S. Department of Agriculture, 2020. http://dx.doi.org/10.32747/2020.7204070.ch.

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Forest health has never been a more urgent concern in California. A variety of forest ecosystem types have experienced extraordinary combinations of stressors and disturbances over the past century, which have resulted in significant changes to forest conditions. Current conditions are a product of multiple interacting factors, including fire exclusion, historic logging practices, increased wildland-urban-interface expansion and, more recently, the effects associated with climate change. The intersection of the factors has led to high severity fire, drought linked mortality, and pest infestation and disease in the affected forests. It’s increasingly clear that the expected effects of climate change will further impact California forest ecosystems, potentially compelling and, in some cases, forcing the application of targeted adaptation strategies and approaches in the years and decades to come.
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Wickman, B. E. Forest health in the Blue Mountains: the influence of insects and disease. U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station, 1992. http://dx.doi.org/10.2737/pnw-gtr-295.

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Sniezko, Richard A., Alvin D. Yanchuk, John T. Kliejunas, Katharine M. Palmieri, Janice M. Alexander, and Susan J. Frankel. Proceedings of the fourth international workshop on the genetics of host-parasite interactions in forestry: Disease and insect resistance in forest trees. U.S. Department of Agriculture, Forest Service, Pacific Southwest Research Station, 2012. http://dx.doi.org/10.2737/psw-gtr-240.

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Lehmkuhl, J. F., P. F. Hessburg, R. L. Everett, M. H. Huff, and R. D. Ottmar. Historical and current forest landscapes of eastern Oregon and Washington Part I: Vegetation pattern and insect and disease hazards. U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station, 1994. http://dx.doi.org/10.2737/pnw-gtr-328.

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Houston, David R. Effect of harvesting regime on beech root sprouts and seedlings in a north-central Maine forest long affected by beech bark disease. U.S. Department of Agriculture, Forest Service, Northeastern Research Station, 2001. http://dx.doi.org/10.2737/ne-rp-717.

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Brandt, Leslie A., Cait Rottler, Wendy S. Gordon, et al. Vulnerability of Austin’s urban forest and natural areas: A report from the Urban Forestry Climate Change Response Framework. U.S. Department of Agriculture, Northern Forests Climate Hub, 2020. http://dx.doi.org/10.32747/2020.7204069.ch.

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The trees, developed green spaces, and natural areas within the City of Austin’s 400,882 acres will face direct and indirect impacts from a changing climate over the 21st century. This assessment evaluates the vulnerability of urban trees and natural and developed landscapes within the City Austin to a range of future climates. We synthesized and summarized information on the contemporary landscape, provided information on past climate trends, and illustrated a range of projected future climates. We used this information to inform models of habitat suitability for trees native to the area. Projected shifts in plant hardiness and heat zones were used to understand how less common native species, nonnative species, and cultivars may tolerate future conditions. We also assessed the adaptability of planted and naturally occurring trees to stressors that may not be accounted for in habitat suitability models such as drought, flooding, wind damage, and air pollution. The summary of the contemporary landscape identifies major stressors currently threatening trees and forests in Austin. Major current threats to the region’s urban forest include invasive species, pests and disease, and development. Austin has been warming at a rate of about 0.4°F per decade since measurements began in 1938 and temperature is expected to increase by 5 to 10°F by the end of this century compared to the most recent 30-year average. Both increases in heavy rain events and severe droughts are projected for the future, and the overall balance of precipitation and temperature may shift Austin’s climate to be more similar to the arid Southwest. Species distribution modeling of native trees suggests that suitable habitat may decrease for 14 primarily northern species, and increase for four more southern species. An analysis of tree species vulnerability that combines model projections, shifts in hardiness and heat zones, and adaptive capacity showed that only 3% of the trees estimated to be present in Austin based on the most recent Urban FIA estimate were considered to have low vulnerability in developed areas. Using a panel of local experts, we also assessed the vulnerability of developed and natural areas. All areas were rated as having moderate to moderate-high vulnerability, but the underlying factors driving that vulnerability differed by natural community and between East and West Austin. These projected changes in climate and their associated impacts and vulnerabilities will have important implications for urban forest management, including the planting and maintenance of street and park trees, management of natural areas, and long-term planning.
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Gómez, Andres, Kimberley Landrigan, Elizabeth Nichols, and Stefanie Siller. Biodiversity Conservation and Human Health. American Museum of Natural History, 2008. http://dx.doi.org/10.5531/cbc.ncep.0140.

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The connections between biodiversity and human health have become a focus of recent attention and research as anthropogenic causes have led to an unprecedented loss of global biodiversity. Using the World Health Organization’s Ecosystems program, this module reviews biodiversity-human health linkages, both direct (e.g., food) and indirect (e.g., waste removal), as well as the potential conflicts of interest between biodiversity conservation and human health (e.g., reduction in disease vectors from forest clear-cutting). These linkages are not clear-cut and often leave much to consider in planning conservation programs.
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Hicke, Jeffrey A., Benjamin C. Bright, Ryan P. Hanavan, et al. Remote sensing of forest insect and disease outbreaks in the western United States: Tree, stand, and landscape responses and technologies and methods for detection and attribution. U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station, 2024. http://dx.doi.org/10.2737/rmrs-gtr-443.

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