A study of selected factors affecting efficacy of compost tea against several fungal pathogens of potato.

AIM: To investigate selected factors of two nonaerated compost teas (NCT) and mechanisms that influence the restriction of several fungal potato pathogens. METHODS AND RESULTS: Two NCTs, made from either commercial compost, (CCT) or vineyard compost (VCT), were tested for their ability to suppress potato pathogens. The VCT was more suppressive than CCT to mycelial growth of Alternaria solani and Rhizoctonia solani isolate 299, but not for R. solani isolate 422. Metagenomic studies of microbial diversity revealed that the CCT had higher fungal and bacterial diversity and richness than the VCT. Use of CCT significantly reduced lesion area of Alternaria alternata on detached leaves, however, a gum adjuvant did not lead to significantly greater control. Scanning microscopy showed that the spatial distribution of microbes from the CCT was altered with gum addition, to resemble what may have been a microbial biofilm. CONCLUSION: We confirmed that each NCT could suppress the mycelial growth of selected potato pathogens in culture, and CCT reduced A. alternata lesions on detached leaves. Factors including concentration, microbial communities and physio-chemical properties could not be consistently linked to NCT efficacy. SIGNIFICANCE AND IMPACT OF THE STUDY: This study particularly highlights the application of scanning microscopy to study the interaction between pathogens and putative NCT microbes on foliar surfaces. This adds insight to mechanisms of NCT efficacy, along with physico-chemical and microbial characterization of the teas. This study shows the potential for the use of NCTs as a crop protection tool of low-cost which could be of particular benefit in smallholder agriculture.

Medial geniculate neurons show diverse effects in response to electrical stimulation of prefrontal cortex.

Phantom perceptions have been proposed to arise due to dysfunctional sensory gating at the level of the thalamus. Recently, it has been suggested that tinnitus, a phantom perception of sound, may arise from altered cortico-limbic circuitry and its connection with the auditory thalamus, the medial geniculate nucleus (MGN). Indeed, some elements of this cortico-limbic circuitry, such as the prefrontal cortex (PFC), as well as elements of the auditory pathway, have been shown to be altered in humans with tinnitus. However, the functional connectivity between PFC and MGN has not yet been explored. We therefore investigated the effects of activation of the PFC on neuronal activity in MGN in normal anaesthetized Wistar rats. Bipolar electrical stimulation was delivered to the PFC while recording single neuron activity in the MGN. The majority (81%) of MGN neurons sampled showed a change in their spontaneous firing rate in response to electrical stimulation of the PFC. The effects observed varied greatly between neurons and included combinations of inhibitory and excitatory effects with a wide range of latencies. The effects were not dependent on acoustic response type or MGN subdivision. These data demonstrate that PFC activation can modulate MGN neuronal activity and this connection could potentially play a role in sensory gating of auditory signals.

Diverse microbial communities in non-aerated compost teas suppress bacterial wilt.

Non-aerated compost teas (NCTs) are water extracts of composted organic materials and are used to suppress soil borne and foliar disease in many pathosystems. Greenhouse trials were used to test the effectiveness of NCTs to suppress potato bacterial wilt caused by Ralstonia solanacearum on plants grown in soils inoculated with a virulent isolate of the pathogen (biovar II). NCTs prepared from matured compost sources: agricultural waste (AWCT), vermicompost (VCT) and solid municipal waste (SMWCT) were evaluated at three initial application times (7 days before inoculation, at time of inoculation and 7 days after inoculation) prior to weekly applications, in a randomized complete-block design. AWCT applied initially at the time of inoculation resulted in the greatest disease suppression, with the disease severity index 2.5-fold less than the non-treated plants and the "area under the disease progress curve" (AUDPC) 3.2-fold less. VCT and SMWCT were less suppressive than AWCT regardless of initial application time. Next generation sequencing of the v4 region of 16S rRNA gene and the internal transcribed spacer region (ITS1) revealed that diversity and composition of the bacterial and fungal communities across the NCTs varied significantly. Dominant bacterial phyla such as Actinobacteria, Bacteroidetes, Firmicutes, Proteobacteria, Verrucomicrobia, Chloroflexi, Planctomycetes, Acidobacteria, and a fungal phylum Ascomycota were detected in all NCTs. AWCT had optimum physico-chemical measurements with higher bacterial Shannon diversity indices (H) and fungal richness (S) than the other treatments. We conclude that bacterial wilt of potatoes grown in controlled conditions can be suppressed by a non-aerated compost tea with a high microbial diversity when applied at planting and weekly thereafter.