Detection, Transmission, and Characterization of Grapevine Virus H in Croatia

A survey of recently discovered vitiviruses was performed on 113 Croatian autochthonous grapevine cultivars from the national collection “Jazbina” using one-step RT-PCR. The presence of grapevine virus H (GVH) was confirmed in nine (7.9%) cultivars and grapevine virus G in eight (7.1%), while the presence of grapevine viruses I and J were not detected. GVH was transmitted by the vine mealybug (Planococcus ficus) from a source plant to grapevine seedlings with a 10.5% transmission rate using a combination of 10 first and second instars per plant with 48 and 72 h of acquisition and inoculation access period, respectively. Transmission correlated with the presence of grapevine leafroll-associated virus 3 (GLRaV-3) in the GVH-source plant and recipient seedlings. No alternative GVH host was identified. A comparison of 356 nt fragments of the RdRP and CP coding regions showed nucleotide identity between the Croatian GVH isolates in the range of 95.5–99.2% and 97.5–99.4% and amino acid identity between 95.8 and 100% and between 98.3 and 100%, respectively. Comparison with foreign isolates revealed nucleotide sequence similarity in the RdRP and CP between 94 and 100% and between 97.7–100%, respectively. To the best of our knowledge, this is the first report of GVH in Croatia and the first identification of the vine mealybug as a vector of GVH.

Trends in intake and sources of dietary protein in Korean adults, 1998–2018

Although a decrease in carbohydrate intake and an increase in fat intake among Koreans have been reported, investigations of changes in protein intake have been limited. Thus, this study aimed to explore trends in the dietary intake of total, plant, and animal proteins overall and by sociodemographic subgroups in Korea over the past two decades. A total of 78,716 Korean adults aged ≥ 19 years who participated in the seven survey cycles of the Korea National Health and Nutrition Examination Survey 1998–2018 were included. Dietary protein intake, overall and by source, was calculated using a single 24-hour dietary recall data. Changes in dietary protein over 20 years were estimated using multiple linear regression analysis after adjusting for potential covariates. For total protein intake, a significant decrease was reported from 1998 to 2016–2018 (P for trendlinearity <0.001), whereas an increasing trend was observed from 2007–2009 to 2016–2018 (P for trendlinearity <0.001). In terms of protein intake by source, plant protein intake decreased while animal protein intake increased over the past two decades, indicating steeper trends during the recent decade (P for trendlinearity <0.001). These trends were more pronounced among younger adults and those with higher household income and education levels. These findings suggest that continuous monitoring of dietary protein intake overall and by source (plant vs. animal) across sociodemographic group is needed.

Identification, characterization and evaluation of honeybee floras in Kafa, Sheka and Benchi Maji Zones of Southern Nations Nationalities and Peoples Region (SNNPR), Ethiopia

The study was aimed with identifying and characterizing honeybee floras and their flowering seasons in south western parts of the country. Relevant data were collected through conducting questionnaire survey, focus group discussions, field observations and lab analysis of pollen and honey samples. In addition, seasonal performance of colonies in terms of brood area, adult population, pollen and nectar stores were evaluated. The obtained data were analyzed using SPSS-ver.20 and MsExcels. Accordingly, a total of 200floral species categorized under 77families identified. Of which, 26(13%) grouped under 16 families characterized as major bee floras. Seasons, January to February, July to August were considered as Dearth periods; March, September to October were brooding seasons, April, November to December were major nectar flow seasons. March to April and November to December were major honey flow seasons being the first for high land and mid land areas and the later for lowland areas whose major botanical origin was Schefflera abyssinica and Guizetia scabra respectively. However, in some areas with better forest covers, Manilkara butij become a major honey source plant. Whereas, January, June to July, March (in low lands) were considered as minor/mini harvesting seasons whose major botanical origin was Vernonia species, Croton macrostachyus and Combritum species respectively. It was noted that there was a significant correlation among brood area, adult population, pollen store and nectar stores at p<0.01.

Experimental induction of resins as a tool to understand variability in ambers

Amber is chiefly known as a preservational medium of biological inclusions, but it is itself a chemofossil, comprised of fossilised plant resin. The chemistry of today's resins has been long investigated as a means of understanding the botanical sources of ambers. However, little is known about the chemical variability of resins and consequently about that of the ambers that are derived from particular resins. We undertook experimental resin production in Araucariacean plants to clarify how much natural resin variability is present in two species, Agathis australis and Wollemia nobilis, and whether different resin exudation stimuli types can be chemically identified and differentiated. The latter were tested on the plants, and the resin exudates were collected and investigated with Fourier-transform infrared attenuated total reflection (FTIR-ATR) spectroscopy to give an overview of their chemistry for comparisons, including multivariate analyses. The Araucariacean resins tested did not show distinct chemical signatures linked to a particular resin-inducing treatment. Nonetheless, we did detect two separate groupings of the treatments for Agathis, in which the branch removal treatment and mimicked insect-boring treatment-derived resin spectra were more different from the resin spectra derived from other treatments. This appears linked to the lower resin viscosities observed in the branch- and insect-treatment-derived resins. However the resins, no matter the treatment, could be distinguished from both species. The effect of genetic variation was also considered using the same stimuli on both the seed-grown A. australis derived from wild-collected populations and on clonally derived W. nobilis plants with natural minimal genetic diversity. The variability in the resin chemistries collected did reflect the genetic variability of the source plant. We suggest that this natural variability needs to be taken into account when testing resin and amber chemistries in the future.

Starve to Sustain—An Ancient Syrian Landrace of Sorghum as Tool for Phosphorous Bio-Economy?

Phosphorus (P) is an essential macronutrient, playing a role in developmental and metabolic processes in plants. To understand the local and systemic responses of sorghum to inorganic phosphorus (Pi) starvation and the potential of straw and ash for reutilisation in agriculture, we compared two grain (Razinieh) and sweet (Della) sorghum varieties with respect to their morpho-physiological and molecular responses. We found that Pi starvation increased the elongation of primary roots, the formation of lateral roots, and the accumulation of anthocyanin. In Razinieh, lateral roots were promoted to a higher extent, correlated with a higher expression of SbPht1 phosphate transporters. Infrared spectra of straw from mature plants raised to maturity showed two prominent bands at 1371 and 2337 cm−1, which could be assigned to P-H(H2) stretching vibration in phosphine acid and phosphinothious acid, and their derivates, whose abundance correlated with phosphate uptake of the source plant and genotype (with a higher intensity in Razinieh). The ash generated from these straws stimulated the shoot elongation and root development of the rice seedlings, especially for the material derived from Razinieh raised under Pi starvation. In conclusion, sorghum growing on marginal lands has potential as a bio-economy alternative for mineral phosphorus recycling.

First Report of Pestalotiopsis chamaeropis Causing Leaf Spot on Eurya nitida in China

Eurya nitida Korth. belonging to the family Theaceae is an evergreen shrub or small tree and is usually used as a very important ornamental tree and nectar source plant (Khan et al. 1992; Ma et al. 2013). It also has high medicinal values with the treatment of rheumatoid arthritis, diarrhea, innominate inflammatory of unknown origin, ulcer fester and traumatic hemorrhage (Park et al. 2004). In October 2020, symptoms of leaf spot were observed on E. nitida in Meiling Scenic Spot of Nanchang, Jiangxi Province, China (28.78°N, 115.83°E). We surveyed about 300 m2 of the mountain area which holds about 100 trees of E. nitida scattered naturally near the waterside or regularly planted on either side of the mountain road. Most of the infected plants were observed from humid environments or waterside, with 15~20% disease incidence, and the disease severity on a plant basis was determined to be 25% to 30%, depending on the field. Sixty infected leaves were collected from 20 individual trees which have the same symptoms. The symptoms on infected leaves appeared as tiny circular spots that gradually enlarged into brown circular necrotic lesions and then became a light gray with brown borders and black acervuli at the later stages of the disease. Ten leaves of infected tissues randomly selected from collected sixty infected leaves were cut into 4 mm2 pieces, and surface disinfected with 75% ethanol for 30s and 1% hypochlorite for 1 min, rinsed three times with sterile water, plated on potato dextrose agar (PDA), and incubated at 25°C in the dark for 5 to 7 days. Five isolates with similar morphological characteristics were obtained. Colonies developed copious white aerial mycelium covering the entire Petri dish area after 7 to 10 days. Conidiogenous cells were discrete, hyaline, and smooth. Conidia were fusiform, ellipsoid, 4-euseptate and ranged from 21.86 to 29.80 × 5.95 to 9.80 µm. Apical cells were hyaline with 2 to 3 unbranched, tubular apical appendages (mostly 3); basal cell was hyaline, obconic with a truncate base; three median cells doliiform to subcylindrical, brown. The morphological characteristics of all isolates matched features described for Pestalotiopsis chamaeropis Maharachch., K.D. Hyde & Crous (Maharachchikumbura et al. 2014). Two single representatives (JAUCC L001-1 and JAUCC L002) were used for molecular identification, which were verified based on the amplification of DNA sequences of internal transcribed spacer region (ITS) gene and translation elongation factor 1 alpha (TEF1-α) gene, using the primers ITS4/ITS5 (White et al. 1990) and EF1-526F/EF1-1567R (Rehner and Buckley 2005), respectively. The sequenced loci (GenBank accession nos. ITS: MW845761, MW828589 and TEF1-α: MW838967, MZ292464) exhibited over 99% homology with P. chamaeropis strain CBS 186.71 in GenBank (GenBank accession nos. KM199326 and KM199473), confirming the morphological identification. Phylogenetic reconstruction was generated by using the maximum likelihood (ML) method based on the Kimura 2-parameter model, with bootstrap nodal support for 1000 pseudoreplicates in MEGA software, version 7.0. The result showed that our isolates were clustered together with P. chamaeropis at 99% bootstrap values. Based on morphological characteristics and molecular phylogenetic analysis, the isolates were identified as P. chamaeropis. The pathogenicity of one representative isolate (JAUCC L001-1) was tested indoor by inoculating the top leaves of six healthy E. nitida plants. Three plants with three leaves were punctured with flamed needles and sprayed with a conidial suspension (1 × 106 conidia/ml), and other three plants wounded inoculated with mycelial plugs (5 × 5 mm3). Mock inoculations were used as controls with sterile water and non-infested PDA plugs on three leaves each. Treated plants were incubated in an artificial climate box with high relative humidity at 25 °C. After 10 days, symptoms on all wounded inoculated plants were similar to those previously observed with distinct tiny circular spots, whereas no symptoms appeared on inoculated plants. Pestalotiopsis chamaeropis was re-isolated from symptomatic tissues but not from the mock-inoculated plants, and its identity was confirmed by morphological characteristics and molecular data, which confirmed Koch's postulates. Pestalotiopsis chamaeropis was previously reported as the causal agent of leaf blight diseases on Camellia sinensis in China (Chen et al. 2020), Pieris japonica in Japan (Nozawa et al. 2019) and Prostanthera rotundifolia in Australia (Azin et al. 2015). To our knowledge, this is the first report of P. chamaeropis causing a leaf spot disease on E. nitida in China, and this disease may be more widespread than the sampled location. This finds is beneficial to the better protection of E. nitida, a widespread medicinal and nectar source plant with high economic value.

Phytochemical and Chromatographic studies of two Ayurvedic source plants of Somalata, Cynanchum viminale and Ceropegia juncea

Soma is an important Ayurvedic drug used for various therapeutic aspects. Botanical identity of the source plant of Soma is a matter of controversy. Different plants are being used under the name Soma in different regions of India. Cynanchum viminale and Ceropegia juncea are being used as two important source plants of Soma. In this study, these two plants were compared phytochemically using various quantitative assays and chromatographic techniques like High Performance Thin Layer Chromatography and High-Performance Liquid Chromatography. On quantitative assays C. viminale showed higher flavonoid content whereas C. juncea showed higher percentage of phenolics, carbohydrates and amino acid contents. Presence of a terpenoid and a steroid was identified in plants using high performance thin layer chromatography and both plants showed similar steroids and terpenoids profile. Detailed chromatographic studies revealed that the source plants of Somalata such as C. viminale and C. juncea are almost similar in their phytochemical profiles. The study provided a scientific background for the traditional use of C. viminale and C. juncea as source plants of somalata.

Classification of the mechanisms by which cardiotoxic plant poisons exert their effects

Episodes of poisoning due to plant-based toxins are an unusual presentation to the emergency department. Plant poisons may be ingested if the source plant is misidentified as benign (eg, Lily of the Valley being mistaken for wild garlic and water hemlock being mistaken for wild celery), or taken as part of a complementary medicine regime or otherwise for psychotropic effect. Numerous plant poisons demonstrate cardiotoxic effects resulting from action against cardiac myocyte ion channels, or other cardiac receptor targets. These mechanisms will produce stereotyped symptoms and including electrocardiogram (ECG) changes dependent on which ion channels or receptors are targeted. These mechanisms are stereotyped and may be grouped by toxidromic effect. This article proposes a novel classification of cardiotoxic plant poisons based on these actions. Given that these mechanisms mirror the Vaughan Williams classification used to categorise therapeutic antiarrhythmic agents, it is felt that this will serve as a mnemonic and diagnostic aid in clinical situations of cardiotoxic plant ingestion.