Influence of Fungicide Application on Rhizosphere Microbiota Structure and Microbial Secreted Enzymes in Diverse Cannabinoid-Rich Hemp Cultivars.

Microbes and enzymes play essential roles in soil and plant rhizosphere ecosystem functioning. However, fungicides and plant root secretions may impact the diversity and abundance of microbiota structure and enzymatic activities in the plant rhizosphere. In this study, we analyzed soil samples from the rhizosphere of four cannabinoid-rich hemp (Cannabis sativa) cultivars (Otto II, BaOx, Cherry Citrus, and Wife) subjected to three different treatments (natural infection, fungal inoculation, and fungicide treatment). DNA was extracted from the soil samples, 16S rDNA was sequenced, and data were analyzed for diversity and abundance among different fungicide treatments and hemp cultivars. Fungicide treatment significantly impacted the diversity and abundance of the hemp rhizosphere microbiota structure, and it substantially increased the abundance of the phyla Archaea and Rokubacteria. However, the abundances of the phyla Pseudomonadota and Gemmatimonadetes were substantially decreased in treatments with fungicides compared to those without fungicides in the four hemp cultivars. In addition, the diversity and abundance of the rhizosphere microbiota structure were influenced by hemp cultivars. The influence of Cherry Citrus on the diversity and abundance of the hemp rhizosphere microbiota structure was less compared to the other three hemp cultivars (Otto II, BaOx, and Wife). Moreover, fungicide treatment affected enzymatic activities in the hemp rhizosphere. The application of fungicides significantly decreased enzyme abundance in the rhizosphere of all four hemp cultivars. Enzymes such as dehydrogenase, dioxygenase, hydrolase, transferase, oxidase, carboxylase, and peptidase significantly decreased in all the four hemp rhizosphere treated with fungicides compared to those not treated. These enzymes may be involved in the function of metabolizing organic matter and degrading xenobiotics. The ecological significance of these findings lies in the recognition that fungicides impact enzymes, microbiota structure, and the overall ecosystem within the hemp rhizosphere.

Leaf Spot Disease Development and Its Effect on Yield of Essential Oil-Producing Hemp Cultivars in Kentucky.

Leaf spot diseases are common on field hemp, causing defoliation, and blighting. The most prevalent leaf spot diseases of hemp in Kentucky are Bipolaris leaf spot (Bipolaris gigantea), Cercospora leaf spot (Cercospora flagellaris), and Septoria leaf spot (Septoria cannabis). In this study, disease progression, cultivar susceptibility, and yield loss were examined using cultivars from four relatedness groups at two locations and in two growing seasons. Septoria leaf spot was the first leaf spot disease to be observed in the field, followed by Bipolaris leaf spot. Both diseases reduced canopy density. Cercospora leaf spot developed in the late reproductive stages as harvest approached. A wide range of susceptibility was documented, suggesting genetic variability across cultivars. Trump group cultivars were the most susceptible, while Otto II group cultivars were the least susceptible. Most importantly, leaf spot diseases had minimal influence on floral biomass and no effect on CBD yield, suggesting that, regardless of disease severity, leaf spot diseases may seldom warrant management. While the importance of foliar disease and corresponding yield loss can shift over time, variation in disease progress among leaf spot diseases and susceptibility of hemp cultivars documented in this study suggest potential disease management through cultural practices such as cultivar and planting date selections.

Seeing double on Cannabis: Haploids and heteroploids of Bipolaris gigantea on hemp and other dicots.

Bipolaris gigantea (= Drechslera gigantea) causes Bipolaris leaf spot (BLS), a devastating and widespread disease on industrial hemp (Cannabis sativa). An investigation of relationships of isolates from hemp and other plants indicated variation in ploidy that has not previously been reported for Bipolaris. Isolates were obtained from BLS lesions on hemp and nearby weeds in 11 Kentucky counties and were similar to each other in morphology and growth characteristics. In total, 23 isolates were analyzed by multilocus phylogenetics, of which seven were also chosen for whole genome shotgun sequencing. Genes for RNA polymerase II subunit 2 (RPB2), translation elongation factor 1-α (TEF1), and mating type (MAT1) indicated that 13 of the isolates were haploid with only a single allele each of RPB2 and TEF1 and either the MAT1-1 or MAT1-2 idiomorph, whereas 10 were apparently "heteroploid" with two alleles each of RPB2 and TEF1 and both MAT1 idiomorphs. Haploids all had identical RPB2 alleles except for a 1-bp difference in two isolates, identical TEF1 alleles, and (if present) identical MAT1-2 alleles. Those alleles were also present in each heteroploid along with either of two related but distinct alleles for each gene. In contrast, haploids and heteroploids shared allelic variation of MAT1-1. In total, four haploid and two heteroploid genotypes were identified. Genome sequence data assembled to 30-32 Mb for each of four haploid isolates, but 10-31 Mb larger sizes for each of three heteroploids depending on sequencing platform and assembly program. The haploids and heteroploids caused similar disease on hemp.

First report of black root rot (Berkeleyomyces rouxiae) on greenhouse hemp (Cannabis sativa) in Kentucky.

Hemp, Cannabis sativa, was reintroduced to the US in 2014 after 50 years of prohibition. Since then, growers have focused primarily on cannabinoid production using female plants. Thus, most modern hemp has been asexually propagated in greenhouses and transplanted into fields. In December 2019, a commercial transplant producer in Fayette County, Kentucky reported 30% dieback on 'Seagull' hemp. Plants were potted into artificial media (unknown origin) immediately upon removal from the mist bench, and symptoms developed approximately two weeks afterward. Scattered plants developed stunting, yellowing, and wilting symptoms and then died within one week of symptom development. Roots had brown to black lesions distributed along roots that progressed into necrosis. Aleuriospores (chlamydospores) were visible under the dissecting microscope. Root pieces were surface sterilized with 10% household bleach for 2 min and then plated onto cut centers of ~1 cm thick sterilized carrot cross section (Williamson 2014). Resulting colonies were single-spored and maintained on PDA plates on laboratory benchtops (23°C, fluorescent lights). Three isolates were selected for pathogenicity testing and identification. Resulting colonies initially appeared white but darkened to black within two days following the development of aleuriospores (chlamydospores). Aleuriospores were dark brown, formed in chains of 4 to 5, and measured 10.00 to 14.27 × 5.62 to 11.23 µm (n=50). Endoconidia were hyaline, cylindrical, and measured 11.63 to 34.10 × 3.95 to 5.58 µm (n=50). To confirm pathogenicity, soil was washed from three 4-week-old hemp plants (proprietary cultivar) and roots were soaked in a 1x106 spore/mL conidial suspension for 5 minutes. In addition, the roots of three control plants were mock inoculated using sterile water. Inoculated and control plants were transplanted into sterile potting media and maintained in separate trays. Inoculated plants developed leaf yellowing and wilting symptoms 14 dai. Roots examined 21 dai had scattered brown lesions throughout and were colonized by the fungus. Aleuriospores and endoconidia isolated from the symptomatic roots were identical to the inoculum. Control plants did not develop symptoms after 21 dai. For molecular analyses, DNA was extracted from an actively growing (5 d) representative isolate (19FY005) on PDA using Quick-DNA™ Fungal/Bacterial Miniprep Kit (Zymo Research, Irvine, CA). Fragments of commonly used diagnostic loci ITS, ACT, RPBII and Mcm7 were amplified as described by de Beer et al (2014), Fourie et al (2015) and Duong et al (2012). Amplicons were sequenced by Sanger sequencing and the consensus sequences were compared with the NCBI GenBank database by BLASTn. ACT amplicon (OK135163) top hit was B. rouxiae (MF967149.1) with 100% similarity, Mcm7 (OK135165) top hit was B. rouxiae (MF967103.1) with 100% similarity, RPBII (OK135166) top hit was B. rouxiae (MF967194.1) with 99.80% similarity, and ITS (OK135164) top hit was B. rouxiae (MF952402.1) with 99.82% similarity. Berkeleyomyces spp (syn Thielaviopsis sp.) is the causal agent of black root rot in field crops such as cotton and tobacco and in ornamentals such as holly and pansy; it is also a common disease in greenhouse production systems. Introduction of a cryptic sister species in 2017 may suggest that reports of black root rot in many crops may be either B. basicola or B. rouxiae, both species are indistinguishable by morphology (Nel et al. 2017). Although both species have wide host ranges with no host specificity, speciation may be important in terms of pathogenicity, host susceptibility, and other cultural factors. As hemp acreage increases across the US, black root rot may become a more prominent disease in greenhouse transplant production systems and in fields.

First Report of Fusarium graminearum Causing Flower Blight On Hemp (Cannabis sativa) in Kentucky.

In October of 2020, a grower in Boyle County, KY, reported mold and blight symptoms on flowers of field-grown hemp. Plants were approaching harvest, and the mold was affecting 100% of the cultivar 'White CBG' being grown for cannabinoid (CBD) extraction. Mycelium colonized the flower heads and any seeds within bracts. Affected flower bracts were necrotic, and mycelium and necrosis in the most severe cases also encompassed adjacent (sugar) leaves. Necrotic symptomatic tissue was collected, disinfested in 10% bleach for one minute, and cultured on acidified potato dextrose agar (APDA). Each isolate was single-spored, transferred to PDA, stored in 15% glycerol at -80°C and maintained at room temperature under blacklight blue and fluorescent bulbs on a 12-hour light-dark cycle. Colonies produced white-pink mycelia with a dark red pigment on the undersides. Conidia collected after 7-9 days were falcate and septate (5 to 6). No microconidia were produced. Macroconidia measured 35.4-49.7 µm x 3.4-5.8 µm (n=50). The strains produced blue-black fertile perithecia on carrot agar when induced according to the method of (Bowden and Leslie, 1999). To confirm pathogenicity, flowers of hemp cultivars 'Lifter', 'Trump Towers', 'Wife' and 'White CBG' were inoculated in the greenhouse with a representative fungal strain (20Hemp010). Plants were inoculated at two different stages: when the styles were still green or after they had become senescent. Macroconidia were collected from 7- to 9-day-old cultures grown under a 12-hour light-dark cycle. Plants were spray-inoculated with a 5 x 105 per ml conidial suspension in 0.05% Tween 20 until runoff. Flower heads were individually covered with clear plastic bags and incubated for 72 h at 95-100% humidity under greenhouse benches to avoid direct light. Bags were removed after 72 h and returned to the bench. Greenhouse conditions were 23-25°C with a 14-hour photoperiod and 50% RH. Symptoms developed 7 dai in 1% of the flowers inoculated when styles were green, and 36% of the flowers that had senescent styles. Symptoms were similar to those initially noticed in Boyle County, including necrotic flower bracts and sugar leaves, and visible fungal growth. Symptoms were more severe on plants inoculated when styles were necrotic. Recovered fungi were morphologically similar to 20Hemp010. Genomic DNA was extracted from the mycelium with the Zymo Research Quick-DNA Fungal/Bacterial Miniprep Kit. A fragment of the translation elongation factor 1-alpha 1 gene was amplified with primers EF1 and EF2 as described by (O'Donnell et al. 1998). Amplicons were sequenced and the consensus (MZ407909) was compared with the NCBI GenBank Refseq database by BLASTn. The top hit was Fusarium graminearum with 100% identity (JF270185.1). Pairwise alignments via MycoBank Fusarium MLST and Fusarium-ID also revealed a top hit of F. graminearum with 100% identity (AY452957.1). Conidial and colony morphology were also consistent with F. graminearum (Leslie and Summerell, 2006), thus we conclude that this species was the causal agent of the flower blight and mold. The same disease was subsequently confirmed on hemp in Breathitt and Franklin Counties in KY in 2020. This is the first report of this disease in KY, although F. graminearum has been reported previously causing a similar flower blight on hemp in NY and NC (Bergstrom et al., 2019, Thiessen et al. 2020). Fusarium graminearum is common in KY as a cause of Fusarium head blight on wheat and Gibberella ear rot on corn. In cereals, fungal infection is facilitated by the production of the mycotoxin deoxynivalenol (DON), which is harmful to humans and livestock (Desjardins and Hohn, 1997). As hemp production in Kentucky continues to rise for production of CBD products and edible grains, accumulation and concentration of DON in these products could become a concern.

Reemergence of Septoria Leaf Spot Caused by Septoria cannabis on Hemp in Kentucky.

Hemp reemerged in 2014 after being illegal for over 50 years and restricted for 90 years. Today, hemp is primarily grown for production of cannabidiol (CBD), with limited acreage dedicated to fiber. One of the most frequent and destructive leaf spot diseases of hemp cultivars grown for CBD is Septoria leaf spot. Symptoms are mostly observed in lower leaves and inner canopy. Leaf spots begin as small, irregular, brown to gray spots that rapidly expand to about 5.0 to 7.5 mm in diameter. Pycnidia are scattered, round, dark brown to black in color, and measure 38.8 to 145.0 µm in diameter. Conidia are hyaline, curved but occasionally straight, pointed at the apex, and contain 3 to 4 septa. Morphological characteristics were similar to those reported for Septoria cannabis. Gene sequences from seven diagnostic loci (elongation factor, ß-tubulin, RNA polymerase II, large subunit, internal transcribed spacer, actin, and calmodulin) did not match any published accessions. There are no published sequences for S. cannabis available for comparison. Phylogenetic analysis of concatenated sequences showed that isolates from hemp grouped separately from other Septoria spp. Similarity of morphological characteristics and lack of sequence data matching other Septoria spp. led to the conclusion that isolates collected from hemp in Kentucky are S. cannabis. This new information will serve as an update for Septoria leaf spot diagnostics, especially as hemp acreage continues to increase across the United States.

Use of Telomere Fingerprinting to Identify Clonal Lineages of Colletotrichum fioriniae in Kentucky Mixed-Fruit Orchards.

Multiple species in the fungal genus Colletotrichum cause anthracnose fruit rot diseases that are responsible for major yield losses of as much as 100%. Individual species of Colletotrichum typically have broad host ranges and can infect multiple fruit species. Colletotrichum fioriniae causes anthracnose fruit rots of apples, blueberries, and strawberries in Kentucky orchards where these fruits grow in close proximity. This raises the possibility of cross-infection, which may have significant management implications. The potential occurrence of cross-infection was investigated by using telomere fingerprinting to identify C. fioriniae clones in several mixed-fruit orchards. Telomere fingerprints were highly polymorphic among a test group of C. fioriniae strains and effectively defined clonal lineages. Fingerprints were compared among apple, blueberry, and strawberry isolates of C. fioriniae from three different orchards and similarity matrices were calculated to build phylograms for each orchard group. Multiple clonal lineages of C. fioriniae were identified within each orchard on the same fruit host. Related lineages were found among isolates from different hosts, but the results did not provide direct evidence for cross-infection of different fruit species by the same clones. Recovery of the same clonal lineages within orchards across multiple years suggested that local dispersal was important in pathogen population structure and that C. fioriniae strains persisted within orchards over time. Isolates from blueberry were less diverse than isolates from apple, perhaps related to more intensive anthracnose management protocols on apple versus blueberry. Telomere fingerprinting is a valuable tool for understanding population dynamics of Colletotrichum fruit rot fungi.

Management of refractory pain in Stiff-Person syndrome.

Stiff-Person syndrome (SPS) is a rare autoimmune neurological disorder characterised by episodic painful muscle rigidity and violent spasms. A significant trigger for the painful spasms experienced by patients is pain itself, making optimal pain management and avoidance a necessity. While first-line and second-line therapies for spasm prevention and termination are known, there is a paucity of evidence to guide pain management. We report the case of a 26-year-old woman with SPS referred for excruciating muscle cramping and rigidity with pain lasting beyond the episodes themselves. We report the novel use of ketamine and intravenous magnesium sulfate which may provide analgesia, spasm avoidance and early termination of exacerbations in SPS.

Diversity and Cross-Infection Potential of Colletotrichum Causing Fruit Rots in Mixed-Fruit Orchards in Kentucky.

Fungi in the genus Colletotrichum cause apple, blueberry, and strawberry fruit rots, which can result in significant losses. Accurate identification is important because species differ in aggressiveness, fungicide sensitivity, and other factors affecting management. Multiple Colletotrichum species can cause similar symptoms on the same host, and more than one fruit type can be infected by a single Colletotrichum species. Mixed-fruit orchards may facilitate cross-infection, with significant management implications. Colletotrichum isolates from small fruits in Kentucky orchards were characterized and compared with apple isolates via a combination of morphotyping, sequencing of voucher loci and whole genomes, and cross-inoculation assays. Seven morphotypes representing two species complexes (C. acutatum and C. gloeosporioides) were identified. Morphotypes corresponded with phylogenetic species C. fioriniae, C. fructicola, C. nymphaeae, and C. siamense, identified by TUB2 or GAPDH barcodes. Phylogenetic trees built from nine single-gene sequences matched barcoding results with one exception, later determined to belong to an undescribed species. Comparison of single-gene trees with representative whole genome sequences revealed that CHS and ApMat were the most informative for diagnosis of fruit rot species and individual morphotypes within the C. acutatum or C. gloeosporioides complexes, respectively. All blueberry isolates belonged to C. fioriniae, and most strawberry isolates were C. nymphaeae, with a few C. siamense and C. fioriniae also recovered. All three species cause fruit rot on apples in Kentucky. Cross-inoculation assays on detached apple, blueberry, and strawberry fruits showed that all species were pathogenic on all three hosts but with species-specific differences in aggressiveness.

One Clonal Lineage of Calonectria pseudonaviculata Is Primarily Responsible for the Boxwood Blight Epidemic in the United States.

Boxwood blight caused by Calonectria pseudonaviculata and C. henricotiae is destroying cultivated and native boxwood worldwide, with profound negative economic impacts on the horticulture industry. First documented in the United States in 2011, the disease has now occurred in 30 states. Previous research showed that global C. pseudonaviculata populations prior to 2014 had a clonal structure, and only the MAT1-2 idiomorph was observed. In this study, we examined C. pseudonaviculata genetic diversity and population structure in the United States after 2014, following the expansion of the disease across the country over the past 5 years. Two hundred eighteen isolates from 21 states were genotyped by sequencing 11 simple sequence repeat (SSR) loci and by MAT1 idiomorph typing. All isolates presented C. pseudonaviculata-specific alleles, indicating that C. henricotiae is still absent in the U.S. states sampled. The presence of only the MAT1-2 idiomorph and gametic linkage disequilibrium suggests the prevalence of asexual reproduction. The contemporary C. pseudonaviculata population is characterized by a clonal structure and composed of 13 multilocus genotypes (SSR-MLGs) unevenly distributed across the United States. These SSR-MLGs grouped into two clonal lineages (CLs). The predominant lineage CL2 (93% of isolates) is the primary contributor to U.S. disease expansion. The contemporary U.S. C. pseudonaviculata population is not geographically subdivided and not genetically differentiated from the U.S. population prior to 2014, but is significantly differentiated from the main European population, which is largely composed of CL1. Our findings provide insights into the boxwood blight epidemic that are critical for disease management and breeding of resistant boxwood cultivars.

Normothermic extracorporeal human liver perfusion following donation after cardiac death.

Liver transplantation is a major life-saving procedure and donation after cardiac death (DCD) has increased the pool of potential liver donors. However, livers procured after DCD are at increased risk of primary graft dysfunction and biliary tract ischaemia. Normothermic extracorporeal liver perfusion (NELP) may increase the ability to protect, evaluate and, in future, transplant DCD livers. We conducted a proof-of-concept experiment using a human liver procured by DCD (deemed not suitable for liver donation) to assess the short-term (3 hours) feasibility, histological effects and functional efficacy of NELP. We used an extracorporeal membrane oxygenation circuit with separate hepatic artery and portal vein perfusion to achieve physiological perfusion pressures, and coupled this with parenteral nutrition and an insulin infusion. We achieved NELP with evidence of liver function (bile production, paracetamol removal and control of ammonia, bilirubin and lactate levels) for 3 hours. There was essentially normal liver and biliary tract histology after 8 hours of perfusion. Our experiment justifies further investigation of the feasibility and efficacy of human DCD liver preservation by NELP.

Longitudinal changes in zinc transport kinetics, metallothionein and zinc transporter expression in a blood-brain barrier model in response to a moderately excessive zinc environment.

A blood-brain barrier (BBB) model composed of porcine brain capillary endothelial cells (BCEC) was exposed to a moderately excessive zinc environment (50 micromol/L Zn) in cell culture, and longitudinal measurements were made of zinc transport kinetics, ZnT-1 (SLC30A1) expression and changes in the protein concentration of metallothionein (MT), ZnT-1, ZnT-2 (SLC30A2) and Zip1 (SLC39A1). Zinc release by cells of the BBB model significantly increased after 12-24 h of exposure, but decreased back to control levels after 48-96 h, as indicated by transport across the BBB from both the ablumenal (brain) and the lumenal (blood) directions. Expression of ZnT-1, the zinc export protein, increased by 169% within 12 h, but was no longer different from controls after 24 h. Likewise, ZnT-1 protein content increased transiently after 12 h of exposure, but returned to control levels by 24 h. Capacity for zinc uptake and retention increased from both the lumenal and the ablumenal directions within 12-24 h of exposure and remained elevated. MT and ZnT-2 were elevated within 12 h and remained elevated throughout the study. Zip1 was unchanged by the treatment. The BBB's response to a moderately high zinc environment was dynamic and involved multiple mechanisms. The initial response was to increase the cells' capacity to sequester zinc with additional MT and to increase zinc export with the ZnT-1 protein. But the longer-term strategy involved increasing ZnT-2 transporters, presumably to sequester zinc into intracellular vesicles as a mechanism to protect the brain and to maintain brain zinc homeostasis.

Pain assessment in a geriatric psychiatry program.

BACKGROUND: The assessment of pain in older persons with psychiatric illness is particularly challenging for health care professionals. There are few well-tested pain assessment tools for this population. OBJECTIVES: A study was conducted to explore pain assessment and management issues in geriatric psychiatry. METHODS: Seventy-four staff members of a geriatric psychiatry service at Regional Mental Health Care London, St Joseph's Health Care London, London, Ontario completed a survey to assess current pain assessment and management practice for geriatric psychiatry patients, and to identify indicators used to assess pain in this population. The results of the survey were later shared with members of the program's pain management team in a focus group discussion to explore opportunities on how to transfer these findings into clinical practice. RESULTS: The majority of survey respondents (91.8%) agreed that pain assessment and management could be improved for patients; only 14.9% reported that there was a consistent approach to pain management. Misconceptions and attitudes about pain, lack of easily administered pain tools, inconsistent monitoring of pain, and lack of documentation of pain symptoms and indicators were identified as significant barriers to optimal pain management for their patients. A number of behaviours indicative of pain were identified but emphasis was placed on recognition of changes from usual behaviour. CONCLUSIONS: The findings of the present study highlight the need for a comprehensive, practical and consistent approach to pain assessment and management, and provide insight into the critical components, including behavioural indicators, that could be incorporated into a pain protocol to be used with this population.

Instruments for the assessment of pain in older persons with cognitive impairment.

Pain in older persons with cognitive impairment is often unrecognized and inadequately treated. A major problem associated with this undertreatment is the challenging nature of pain assessment and in particular the selection of accurate and useful assessment instruments. The purpose of this study was to review pain measurement instruments for acute and chronic pain suggested for use with cognitively impaired older persons and to summarize available evidence on their reliability and validity. A systematic search for pain instruments was conducted using several bibliographic databases, supplemented by a manual search of the bibliographies of retrieved articles and review chapters and by articles received from experts and clinicians in the field. Instruments were retained for review when the pain instrument was used or recommended for use with older persons with cognitive impairment. Thirty-nine instruments were reviewed; nine were excluded for various reasons. Of the remaining 30, 18 were self-report and 12 were staff administered. There were no instruments for which all major tests of reliability or validity were reported. Reliability and validity data were basic or unavailable for many instruments. One instrument had excellent validity but no reliability data. The remaining instruments had weak or adequate reliability and validity. The authors conclude that there is a need for further rigorous development and testing of pain instruments for use with cognitively impaired older persons. An adequate instrument would be one component of an effective program for assessment and management of pain in this population.

Beyond knowledge transfer: a model of knowledge integration in a clinical setting.

Current conceptualizations of knowledge transfer reinforce the notion of a linear process between researchers and clinicians, who are seen as operating separately with different agenda. This paper uses a case study to illustrate a dynamic model of knowledge integration involving integrated and interdependent relationships among researchers, clinicians, and decision-makers. We believe the principles of this model are more likely to lead to effective use of research evidence in clinical practice.