Simulated global warming affects endophytic bacterial and fungal communities of Antarctic pearlwort leaves and some bacterial isolates support plant growth at low temperatures.

Antarctica is one of the most stressful environments for plant life and the Antarctic pearlwort (Colobanthus quitensis) is adapted to the hostile conditions. Plant-associated microorganisms can contribute to plant survival in cold environments, but scarce information is available on the taxonomic structure and functional roles of C. quitensis-associated microbial communities.

Biodiversity and Bioprospecting of Fungal Endophytes from the Antarctic Plant .

Microorganisms from extreme environments are considered as a new and valuable reservoir of bioactive molecules of biotechnological interest and are also utilized as tools for enhancing tolerance to (a)biotic stresses in crops. In this study, the fungal endophytic community associated with the leaves of the Antarctic angiosperm was investigated as a new source of bioactive molecules. We isolated 132 fungal strains and taxonomically annotated 26 representative isolates, which mainly belonged to the Basidiomycota division.

Plant organ and sampling time point determine the taxonomic structure of microbial communities associated to apple plants in the orchard environment.

Plant-associated microbial communities interact with their host and are important components of the biodiversity of natural and agro-ecosystems. Scarce knowledge is available on the establishment of plant microbiota in perennial woody plants. In this work the variability in bacterial and fungal communities in aboveground organs was analysed in leaves, bark, flowers and fruits on three apple cultivars (Gala, Fuji and Golden), in order to understand changes of the microbiota community structure from orchard planting to the first year of fruit production.

Tissue age, orchard location and disease management influence the composition of fungal and bacterial communities present on the bark of apple trees.

Plants host microbial communities that can be affected by environmental conditions and agronomic practices. Despite the role of bark as a reservoir of plant pathogens and beneficial microorganisms, no information is available on the effects of disease management on the taxonomic composition of the bark-associated communities of apple trees. We assessed the impact of disease management strategies on fungal and bacterial communities on the bark of a scab-resistant apple cultivar in two orchard locations and for two consecutive seasons.

Fungal biodiversity in the periglacial soil of Dosdè Glacier (Valtellina, Northern Italy).

Periglacial areas are one of the least studied habitats on Earth, especially in terms of their fungal communities. In this work, both molecular and culture-dependent methods have been used to analyse the microfungi in soils sampled on the front of the East Dosdè Glacier (Valtellina, Northern Italy). Although this survey revealed a community that was rich in fungal species, a distinct group of psychrophilic microfungi has not been detected.

Rapid identification of Armillaria species by PCR-DGGE.

The molecular approach has been used to distinguish between Armillaria species because of the ambiguity when using morphological traits. PCR-DGGE using the fungal primers ITS3GC-ITS4 enables a selective separation of amplicons and results in a simple and rapid approach to discriminate in one-step the most common Armillaria species in Europe.

Fungal endophytic communities in grapevines (Vitis vinifera L.) respond to crop management.

We studied the distribution of fungal endophytes of grapevine (Vitis vinifera L.) plants in a subalpine area of northern Italy, where viticulture is of high economic relevance. We adopted both cultivation-based and cultivation-independent approaches to address how various anthropic and nonanthropic factors shape microbial communities.

Ecophysiological requirements and survival of a Trichoderma atroviride isolate with biocontrol potential.

Trichoderma atroviride SC1, isolated from decayed hazelnut wood in northern Italy in 2000, is a promising fungal agent for biological control of soil-borne plant pathogens. The objective of this research was to characterize the biology and ecology of this fungus, in order to determine its environmental parameter tolerance levels and its behavior in the phylloplane and soil systems. To better characterize T.

Real-time PCR for detection and quantification of the biocontrol agent Trichoderma atroviride strain SC1 in soil.

Trichoderma (Hypocreales, Ascomycota) is a widespread genus in nature and several Trichoderma species are used in industrial processes and as biocontrol agents against crop diseases. It is very important that the persistence and spread of microorganisms released on purpose into the environment are accurately monitored. Real-time PCR methods for genus/species/strain identification of microorganisms are currently being developed to overcome the difficulties of classical microbiological and enzymatic methods for monitoring these populations.