Modeling the Effect of Temperature on the Flower Development Rate of Hybrid Impatiens

The effect of average daily temperature (ADT) on flower bud development and subsequent time to flower was investigated on hybrid impatiens (Impatiens ×hybrida) cultivars Compact Electric Orange, Compact Hot Coral, and Compact Orchid Blush. Plants with a visible flower bud measuring 2 mm in width were placed in one of the four greenhouses with temperature setpoints ranging from 16 to 28 °C. Flower bud width was measured every 3 days in each ADT treatment until flowering. The subsequent days to flower (DTF) from the onset of a visible bud decreased from 36 to 27 days as the ADT increased from 17 to 28 °C. The DTF from visible bud varied by <3 days among the three cultivars across all temperatures; therefore, cultivar data were pooled to create a stronger prediction model. A logistic formula was used to predict the remaining DTF as a function of flower bud width and ADT. The model accurately described the effect of bud width and ADT on flowering time within ±3 days for 87% of the actual DTF across all three cultivars. The resulting flower development model provides greenhouse growers with a guide for manipulating temperature to produce flowering plants for specific market dates based on flower bud width measurements.

Analysis of Glucosinolate Content and Metabolism Related Genes in Different Parts of Chinese Flowering Cabbage

Glucosinolates (GSLs) are important secondary metabolites that play important defensive roles in cruciferous plants. Chinese flowering cabbage, one of the most common vegetable crops, is rich in GSLs and thus has the potential to reduce the risk of cancer in humans. Many genes that are involved in GSL biosynthesis and metabolism have been identified in the model plant Arabidopsis thaliana; however, few studies investigated the genes related to GSL biosynthesis and metabolism in Chinese flowering cabbage. In the present study, the GSL composition and content in three different organs of Chinese flowering cabbage (leaf, stalk, and flower bud) were determined. Our results showed that the total GSL content in flower buds was significantly higher than in stalks and leaves, and aliphatic GSLs were the most abundant GSL type. To understand the molecular mechanisms underlying the variations of GSL content, we analyzed the expression of genes encoding enzymes involved in GSL biosynthesis and transport in different tissues of Chinese flowering cabbage using RNA sequencing; the expression levels of most genes were found to be consistent with the pattern of total GSL content. Correlation and consistency analysis of differentially expressed genes from different organs with the GSL content revealed that seven genes (Bra029966, Bra012640, Bra016787, Bra011761, Bra006830, Bra011759, and Bra029248) were positively correlated with GSL content. These findings provide a molecular basis for further elucidating GSL biosynthesis and transport in Chinese flowering cabbage.

SEED PRIMING AND EXOGENOUS APPLICATION OF SALICYLIC ACID ENHANCE GROWTH AND PRODUCTIVITY OF OKRA (Abelmoschus esculentus L.) BY REGULATING PHOTOSYNTHETIC ATTRIBUTES

Low and uneven germination is a serious problem for the successful production of okra seedlings. Priming of seeds as well as supplementation of different plant growth regulators exhibited better response in successful seedling production which eventually results in higher yield. Therefore, the present study was conducted to evaluate the effects of seed priming and exogenous application of salicylic acid (SA) on okra seed germination and plant development. The okra seeds were primed by 1 mM and 2 mM of SA for 60 minutes whereas the seeds were washed several times with distilled water for the control treatment. Similar doses of SA have been exogenously sprayed to the 12 days okra seedlings for 4 days. The results of the study revealed that seed priming with SA enhanced germination percentage (GP), increased coleoptile length and weight, shoot and root length, and seed vigor index (SVI). Similarly, exogenous application of 1 mM SA increased relative water content (RWC), contents of chlorophyll a, chlorophyll b, total chlorophyll while a higher dose of SA (2 mM) degraded the leaf pigments. Supplementation of SA altered photosynthetic attributes, net photosynthetic (Pn) and transpiration rate (Tr), stomatal conductance (Gs), and water use efficiency (WUE). Moreover, SA treatment reduced the time duration of flower bud initiation and days to first flowering and enhanced the yield per plant. The results of this study indicated that seed priming and exogenous application of SA enhanced germination and okra productivity by regulating RWC and photosynthetic attributes where 1 mM SA is more effective compared to 2 mM SA.

Alfa and beta diversity of thrips (Thysanoptera) and biological control agents in chrysanthemum flowers (Chrysanthemum sp.) of two ecoregions in Jujuy province, Argentina

The objectives of this study are to identify thrips and their biological controllers, to analyze their abundance in three flower opening stages stages of chrysanthemum crops, and to determine alpha and beta diversity in two ecoregions of Jujuy province (Argentina). The study was carried out in the Chaco ecoregion (ECH) in October and November 2016, and in the Prepuna ecoregion (EP) in February and March 2018. On each date, six replicates of five flowers were excised in the stages: flower bud , semi-open flower and open flower. Diversity profiles and rank-abundance curves were built, and Jaccard's coefficient of similarity was applied. The diversity profiles showed significant differences in thrips communities. In the ECH, 15 thrips species were identified; the dominant and permanent species were Microcephalothrips abdominalis (Crawford) and Frankliniella occidentalis (Pergande). Five species were recorded in the EP, although Frankliniella gemina Bagnall and Thrips tabaci Lindeman on their own represented 78% of the total abundance. In the ECH, 20 entomophagous species/morphospecies were recognized, and 19 in the EP; antocorids were dominant in both ecoregions. The thrips and the entomophagous communities of chrysanthemum flowers were different (34%) between the ecoregions studied.

First Report of Dickeya fangzhongdai Causing Peduncle Soft Rot of Banana in China

Banana (Musa spp.) is a popular fruit all over the world, and it’s also an important cash crop with a planting area of 358,924 ha in southern China. In July 2020, a peduncle soft rot disease occurred on dwarf banana (Musa sp. cv. Guangfen) in Guigang city (N22°50'29″, E109° 43'34″), Guangxi province, China. More than 20% plants were infected in the banana plantation. The first external sign of the disease appeared on the incisional wound after the flower bud was cut off from the peduncle. The symptom initially appeared as a black lesion on the wound, then extended into the internal tissue of the whole peduncle. In the later stages, the internal tissue became soft and rot, occasionally formed a necrotic cavity, and eventually led to the black rot of the whole peduncle with a foul smell. To isolate the pathogen, the internal lesion tissues of 5 mm × 5 mm were collected between the border of symptomatic and healthy tissue, treated with 75% ethanol for 10 s, and 0.1% HgCl2 for 3 min, then rinsed with sterile water for three times. Sterilized tissue fragments were cut to pieces with sterilized surgical shears and soaked in 5 mL sterile water, then shaken for 10 min in a vortex oscillator. The suspension was diluted 1000 times with sterilized water，then plated on nutrient-agar medium and incubated at 28℃ in darkness for 24 h. Among the 32 isolates, 23 pure bacterial cultures with similar morphology were predominantly obtained from the samples. These bacteria were gram-negative, and their colonies were initially yellowish white with irregular edges and smooth surfaces, then turned to grayish blue after 72 h incubated at 28℃. The representative isolates GZF2-2 and GZF1-8 were selected for further identification. Genomic DNA was isolated from the bacteria and the 16S rDNA was amplified with primers 27F/1492R (Weisburg et al. 1991) and sequenced. The obtained sequences (GenBank Accession No. MZ768922 and OK668082) showed >99% identities to several records of Dickeya fangzhongdai deposited in NCBI GenBank (1400/1404 bps for GZF2-2 to KT992690, 1409/1417 bps for GZF1-8 to MT613398) based on BLAST analysis. In addition, the recA, fusA, gapA, purA, rplB, dnaX genes and the 16S-23S intergenic spacer (IGS) regions of the two isolates were also amplified and sequenced (GenBank Accession Nos. OK634381-OK634382, OK634369- OK634370, OK634373-OK634374, OK634377-OK634378, OK634385-OK634386, OK634365- OK634366 and OK631722-OK631723) as described by Tian et al. (2016). All the DNA sequences matched that of D. fangzhongdai strains JS5T (percent identities>99.06%), PA1 and ECM-1 in GenBank. Neighbor-joining phylogenetic analysis by software MegaX (Kumar et al. 2018) based on the 16S rDNA sequences revealed that the two isolates were in the same clade with reported D. fangzhongdai strains. Multilocus sequence analysis of the other seven regions also showed the two representative isolates were belong to D. fangzhongdai. Therefore, the isolates were identified as D. fangzhongdai. Pathogenicity of isolate GZF2-2 was investigated to demonstrate Koch’s postulate. The end of the banana peduncles of 6 healthy plants were cut off, and 10 mL bacterial suspension (108 CFU/mL) was inoculated to the fresh wound on the plants using sterile brushes. Six control plants were inoculated with sterilized water. All the inoculated peduncles were covered with plastic bags to maintain high humidity. After 28 days, all the peduncles inoculated with strain GZF2-2 showed soft rot symptoms similar to those observed in the field, while the controls remained symptomless. The same bacteria were re-isolated from the symptomatic peduncles and confirmed by sequencing the 16S rDNA. D. fangzhongdai has been reported to cause soft rot on onion (Ma et al. 2020) and bleeding cankers on pear trees (Chen et al. 2020). To the best of our knowledge, this is the first report of D. fangzhongdai causing peduncle soft rot on banana in China.

Identification of Co-Expressed Genes Related to Theacrine Synthesis in Tea Flowers at Different Developmental Stages

Jiaocheng kucha is the first reported tea germplasm resource which contains theacrine founded in Fujian Province. Currently, the anabolic mechanism of theacrine within tea leaves is clear, but there are few studies focused on its flowers. In order to further explore the mechanism of theacrine synthesis and related genes in flowers, current study applied Jiaocheng kucha flowers (JC) as test materials and Fuding Dabaicha flowers (FD) as control materials to make transcriptome sequencing, and determination of purine alkaloid content in three different developmental periods (flower bud stage, whitening stage and full opening stage). The results showed that the flower in all stages of JC contained theacrine. The theacrine in the flower bud stage was significantly higher than in the other stages. The differentially expressed genes (DEGs) at three different developmental stages were screened from the transcriptome data, and were in a total of 5642, 8640 and 8465. These DEGs related to the synthesis of theacrine were primarily annotated to the pathways of purine alkaloids. Among them, the number of DEGs in xanthine synthesis pathway was the largest and upregulated in JC, while it was the smallest in caffeine synthesis pathway and downregulated in JC. Further weighted gene co-expression network (WGCNA) indicated that ADSL (CsTGY03G0002327), ADSL (CsTGY09G0001824) and UAZ (CsTGY06G0002694) may be a hub gene for the regulation of theacrine metabolism in JC. Our results will contribute to the identification of candidate genes related to the synthesis of theacrine in tea flowers, and explore the molecular mechanism of theacrine synthesis in JC at different developmental stages.