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W2022140114 endingPage "405" @default.
W2022140114 startingPage "383" @default.
W2022140114 abstract "SUMMARY The potential of diseases to cause diversity in mixed‐species plant communities and to influence the development of those communities is reviewed. Fungal diseases in natural populations are as severe and damaging as on crops. Epidemics occur on endemic host plants and in mixed‐species communities with the same characteristics as in crops. Natural communities differ in the proportion of species that are hosts of fungal pathogens, and only a small proportion of diseases re‐occur every year in the same community. Disease proneness in communities differs between sites and between years. Also the parasitic mycoflora differs between sites in the same vegetation type, variation being partly due to the fluctuating composition of host species. The presence of a host species at a particular site does not ensure the occurrence of a particular disease. Climate and weather greatly influence the distribution and density of plants. These, in turn, and together with direct effects, determine the prevalence and intensity of diseases which vary markedly. As fungi are naturally amongst the pioneer decomposers of plant material, most hosts are affected after flowering and/or fruit set. There is no compelling evidence that high disease intensities are correlated with high plant densities in natural communities. Diversity in a community is not an automatic safeguard against high disease incidence or severity. Also, disturbance of balanced communities by man is not a prerequisite for damaging epidemics. The impact of disease on the proportions of host species comprising a community depends on the consistent occurrence of sufficiently high disease intensities, particularly during those plant growth stages most prone to negative effects from disease. The impact of exotic diseases can be very serious during the first few years after their introduction, but populations can recover once the exotic pathogen has become endemic. In endemic plant populations the effect of diseases, despite occasional severe outbreaks, is limited or erratic. Disease reduces the reproduction and survival of plants, but practically nothing is known about the competitiveness of a diseased plant species in the next season. In conclusion, the effect of plant diseases on adult plants and, thereby, on the history of a community should not be overrated. More important for the diversity of communities, particularly during immigration and re‐colonization by plant species, could be attacks of fungi on juvenile plants since the few available in situ studies suggest that fungal pathogens may cause high mortality. Very little evidence is, however, yet available. Benefits for comparative epidemiology of studies in natural plant communities are briefly discussed. CONTENTS Summary 383 I. Introduction 384 II. Disease intensities and their effects on wild plants 384 III. Differences in disease proneness amongst wild plant communities 387 IV. Factors affecting the prevalence and intensity of diseases in multispecies communities of wild plants 389 V. Possible impacts of diseases on multispecies communities 397 VI. Diseases in multispecies plant communities as subjects for epidemiological research 400 References 401" @default.
W2022140114 created "2016-06-24" @default.
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W2022140114 date "1990-11-01" @default.
W2022140114 modified "2023-09-27" @default.
W2022140114 title "Tansley Review No. 28 Fungal diseases in multispecies plant communities" @default.
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W2022140114 cites W2026954499 @default.
W2022140114 cites W2028320365 @default.
W2022140114 cites W2051579127 @default.
W2022140114 cites W2062123895 @default.
W2022140114 cites W2064788419 @default.
W2022140114 cites W2066200473 @default.
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W2022140114 cites W2106124190 @default.
W2022140114 cites W2118474568 @default.
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W2022140114 cites W2121474081 @default.
W2022140114 cites W2132197909 @default.
W2022140114 cites W2140976912 @default.
W2022140114 cites W2141465416 @default.
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W2022140114 cites W2147719181 @default.
W2022140114 cites W2156226609 @default.
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W2022140114 cites W2167094993 @default.
W2022140114 cites W2175182161 @default.
W2022140114 cites W2175315245 @default.
W2022140114 cites W2180342506 @default.
W2022140114 cites W2180387746 @default.
W2022140114 cites W2321239505 @default.
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W2022140114 cites W4230880126 @default.
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W2022140114 doi "https://doi.org/10.1111/j.1469-8137.1990.tb00525.x" @default.
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