Yellow Species Research Articles

Comparative study of natural dyes extracted from dark red and yellow Frangipani flowers (Plumeria rubra L.) as DSSC sensitizer

Dye-sensitized solar cells (DSSC) provide credible alternative for the inorganic solid-state photovoltaic devices. In this work, natural sensitizer extracted from Plumeria rubra L. flower (Frangipani) in ethanol has been used as the sensitizer dye. Dark red and yellow species of Frangipani flower petals extracted natural dyes have been studied for their comparative performance as sensitizer dye. FTIR revealed the presence of hydroxyl and carbonyl group in the sensitizer dye, which helped in binding with TiO2. UV-Visible analysis revealed absorption in visible region, which got broadened for dye loaded TiO2. Mass spectrometry confirmed major chemical constituents present in Plumeria rubra L. flower. For the HOMO and LUMO levels of dark red and yellow Frangipani flowers, the density functional theory (DFT) calculation was performed. Light-to-electricity conversion efficiency (ɳ%) of dark red Frangipani flowers was achieved 0.148 % with Voc 0.27 V, Jsc 0.88 mA/cm2 and FF 0.62, which was comparatively higher than yellow Frangipani flowers-based cell having ɳ% 0.128 % with Voc 0.54 V, Jsc 0.37 mA/cm2 and FF 0.64, respectively. For analyzing the charge transfer characteristics, electrochemical impedance spectroscopy (EIS) studies were carried out. The dark red species of Frangipani flower showed better result as sensitizer dye compared to the yellow species.

Molecular phylogenetics uncovers two new species in the genus Phyllobates (Anura, Dendrobatidae): the terrible frog gets two new sisters.

True poison-dart frogs (Phyllobates, Dendrobatidae) evolved the ability to secrete batrachotoxins, the most powerful alkaloids known to date. The genus comprises five species whose systematics, at first glance, appeared clear. The most derived clade would include two Colombian species (P.terribilis and P.bicolor) with the highest toxicity, the largest body size, and predominantly yellow body colouration. The other three species (P.aurotaenia, P.vittatus, and P.lugubris) are less toxic on average, have smaller size, and are predominantly black with bright dorsolateral stripes. Recent research has revealed the existence of two major lineages among the three Colombian species. The northern lineage appears to result from a complex evolutionary history, including perhaps introgression among yellow and black taxa. The southern lineage instead revealed the existence of new clades closely related to P.terribilis, black and yellow, that arguably deserve their recognition as new species. Here, available evidence is combined to support the erection of southern populations of P.aurotaenia as a new highly toxic species, sister to P.terribilis, and much closer to it than to any other yellow or black-bodied species, Phyllobatessamperi sp. nov. Their common ancestor is sister to an additional yellow species, which we also describe here as Phyllobatesbezosi sp. nov. Both new species can be externally diagnosed using colouration. Our previous and current analyses also suggest the existence of additional taxa and corroborate multiple transitions in colouration across these hypertoxic taxa.

A review: Pharmacological and phytochemical update of Passiflora edulis F. Flavicarpa

A native of tropical America (Brazil), passion fruit (Passiflora edulis F. Flavicarpa) is a desirable, high-value crop that is a member of the Passifloraceae family. The fruits of the yellow species (Passiflora edulis F. Flavicarpa) are almost round to oval in shape, with a stiff peel that is smooth and waxy, and weigh approximately 35-40 grams. Plants are used medicinally all over the world for their many health advantages; this particular plant has the highest concentration of phytoconstituents. Numerous phytoconstituents, including flavonoids, tannins, phenols, glycosides, fatty acids, and alkaloids, are present, according to the review. According to reports, Passiflora edulis F. Flavicarpa has anti-inflammatory, anti-convulsant, anti-microbial, anti- cancer, anti-diabetic, anti-hypertensive, anti-sedative, and anti-oxidant qualities. It can also be used as a colon cleanser and have a variety of therapeutic uses for ailments like osteoarthritis and asthma. The various plant parts have also been used as sedatives, sleep aids, ulcer and hemorrhoid treatments, and digestive aids. The ethnopharmacology, phytoconstituents, and medicinal advantages of plants are briefly reviewed in the article, emphasizing the need for more study and advancement in the pharmaceutical field.

Do red and yellow autumn leaves make use of different photoprotective strategies during autumn senescence?

Our goal was to determine whether anthocyanin-producing species (red) use different photoprotective strategies to cope with excess light during fall senescence compared with non-anthocyanin-producing species (yellow). In a previous study, we found that a yellow species retained the photoprotective PsbS protein in late autumn, while a red species did not. Specifically, we tested the hypothesis that red species make less use of zeaxanthin and PsbS-mediated thermal dissipation, as they rely on anthocyanins for photoprotection. We monitored four red (Acer ginnala, Rhus typhnia, Parenthocissus quinquefolia, Viburnum dentatum) and four yellow species (Acer negundo, Ostrya virginiana, Vitis riparia, Zanthoxylum americanum) throughout autumn senescence and analyzed pigments, protein content, and chlorophyll fluorescence. We found yellow species retained the PsbS protein at higher levels, and had higher dark retention of zeaxanthin in late autumn relative to red species. All species retained lutein and the pool of xanthophyll cycle pigments in higher amounts than other carotenoids in late autumn. Our data support the hypothesis that red species use anthocyanins as a photoprotective strategy during autumn senescence, and therefore make less use of PsbS and zeaxanthin-mediated thermal dissipation. We also found species-specific variation in the particular combination of photoprotective strategies used.

First record of the genus Pygoluciola Wittmer (Coleoptera: Lampyridae: Luciolinae) from Sri Lanka with two new species, P. rammale and P. ruhuna

We present the first record of the Southeast Asian firefly genus, Pygoluciola Wittmer, 1939 from Sri Lanka with descriptions of two new distinctive yellow species, P. rammale Wijekoon & De Silva sp. nov. and P. ruhuna Wijekoon & De Silva sp. nov. Both species are from a low-land forest in Southern Province, Sri Lanka, and females were associated with males when captured together in copula. An updated list of species, and key to males and known females of Pygoluciola is presented.

Announcement of the 2022 winners of the Spychala and Women in Science Awards

Announcement of the 2022 winners of the Spychala and Women in Science Awards

Acarosporaceae of the Chihuahuan Desert: four Magnusson species saved from synonymy and a new yellow species

Eighteen described Acarosporaceae are reported from the Chihuahuan Desert in southern New Mexico. Ten species reported by Magnusson from northern New Mexico were collected in the Chihuahuan Desert. Four species described by Magnusson are revised and taken out of synonymy: Acarospora amabilis, A. applanata, A. carnegiei and A. tenebrica. The squamulose yellow species A. organensis, new for science, was determined as A. xanthophana by Magnusson, a species endemic to South America. Acarospora organensis differs in having a higher hymenium than the two common and similar squamulose species, A. socialis from coastal Mexico and California and A. radicata from the New Mexican, Mojave and Sonoran Deserts. Acarospora subcontigua is reported new for North America.

Authentication of tejocote (Crataegus mexicana) dietary supplements based on DNA barcoding and chemical profiling

ABSTRACT Tejocote (Crataegus mexicana, Mexican hawthorn), known as a weight-loss supplement, has been marketed online and is easily available for overseas direct purchase. Alipotec (brand name) is known as one of the most popular products containing tejocote in Mexico and other countries. However, adverse effects have been reported by users of these supplements. Therefore it is necessary to find the reason for the side effect. Dietary supplement samples labelled as containing tejocote were analysed using mass spectrometry and DNA barcoding analysis. Our results demonstrate that Alipotec samples contained ingredients from different species, yellow oleander instead of tejocote. The rpoB barcode region was able to differentiate between tejocote and yellow oleander species. Moreover, it was also observed that three compounds, including thevetin B, neriifolin, and digitoxigenin, clearly distinguish between tejocote and yellow oleander samples. This is the first and preliminary investigation to use an integrated approach of both chemical and genomic profiling for the authentication of dietary supplement containing tejocote.

The complete chloroplast genomes of Camellia chrysanthoides and Camellia achrysantha

Camellia chrysanthoides H. T. Chang and Camellia achrysantha H. T. Chang et S. Y. Liang are two threatened yellow camellia species endemic to southwestern Guangxi, China. Here, we report the complete chloroplast (cp) genomes of C. chrysanthoides and C. achrysantha for the first time. The total cp genome of C. chrysanthoides is 156,959 bp and contains a large single-copy (LSC, 86,564 bp) region, a small single-copy (SSC, 18,267 bp) region, and a pair of inverted repeat (IR, 26,064 bp) regions. The cp genome of C. achrysantha is 156,658 bp and includes an LSC region of 86,249 bp, SSC region of 18,243 bp, and two IR regions of 26,083 bp each. Both C. chrysanthoides and C. achrysantha have 136 genes, including 93 protein-coding genes, 35 tRNA genes, and eight rRNA genes.

The complete chloroplast genome sequence of Camellia rostrata S. X. Yang & S. F. Chai (Theaceae), a critically endangered yellow camellia from southwest China

Camellia rostrata S. X. Yang & S. F. Chai is a recently described yellow camellia species from Guangxi, China. It is a critically endangered species according to the IUCN Red List Categories and Criteria. Here, we report the complete chloroplast (cp) genome based on next-generation sequencing technology. The complete cp genome of C. rostrata is 156,547 bp in length and consists of a large single-copy (LSC, 86,199 bp) region, a small single-copy (SSC, 18,204 bp) region, and a pair of inverted repeats (IRs, 26,072 bp). The genome contains 135 genes including 40 tRNA, eight rRNA, and 87 protein-coding genes. Phylogenetic analysis resolved C. rostrata in a clade containing C. huana and C. impressinervis, both of which are classified to Camellia sect. Archecamellia. Our findings support the placement of C. rostrata in C. sect. Archecamellia as proposed by a previous study. The cp genome of C. rostrata provides valuable bioinformatic resources for the protection and utilization of this yellow camellia species.

Influence of abiotic factors on stem borer incidence and species distribution in rice (Oryza sativa L.)

Aim: To evaluate the effect of abiotic factors such as temperature, relative humidity, wind velocity, sunshine hours and rainfall on the distribution and relative abundance of stem borer species in rice ecosystem. Methodology: Seasonal incidence of stem borer species was monitored using light trap catches and were correlated with the weather parameters. The relative abundance of stem borer species during Kharif and Rabi was estimated based on light trap catches and larval incidence. Results: Seasonal incidence revealed the occurrence of three stem borer species (yellow stem borer, pink stem borer and dark headed borer) populations in rice ecosystem. Yellow stem borer was found to dominate in rice ecosystem during Kharif, (80.61%) whereas during Rabi, pinkstem borer was found to be dominant (72.60%) than yellow stem borer (21.92%) and dark headed borer (5.48%). Weather parameters such as temperature, rainfall and wind velocity negatively influenced the occurrence of stem borer species in rice, whereas relative humidity and sunshine hours had positive effect. Regression analysis revealed the increased effect of abiotic factors such as temperature, relative humidity and wind velocityon the population of pink stem borer against yellow stem borer and dark headed borer. Interpretation: The present study reveals that, the change in weather parameter during seasons, such as temperature (25 - 27°C), relative humidity (69 - 80 %) and wind velocity (3 - 4 km hr-1) increased the fitness of pink stem borer species population than yellow stem borer and dark headed borer species in rice ecosystem, which was evidenced by the occurrence and relative abundance of pink stem borer population during Kharif 2018 and Rabi 2019 respectively.

Working collection of lupine gene pool as effective tool for use in breeding programs

Aim. To study collection accessions of the lupine gene pool for valuable economic characteristics and to build up a working collection from sources selected for the conditions of the Ukrainian Woodlands in accordance with current trends in this crop breeding. Results and Discussion. 150 accessions of the yellow lupine (L. luteus L.), 95 accessions of the white lupine (L. albus L.) and 40 accessions of the narrow-leaved lupine (L. angustifolius L.) of different eco-geographic origins from the collection of the Institute of Agricultural Microbiology and Agricultural Production of NAAS were investigated. The three-year results on 285 accessions of the lupine gene pool studied in the conditions of the Left-Bank Woodlands of Ukraine are presented. The selected sources of economically valuable traits became the basis of the lupine working collection, where traits were picked out for the regional conditions and in accordance with the current trends in this crop breeding. The collection includes 95 accessions of the yellow, white and narrow-leaved lupine species with varying expression of 11 economically valuable traits and is recommended as a genetic basis and valuable starting material for creating new, highly productive, early maturing varieties of fodder lupine. Conclusions. We built up the working collection of the lupine gene pool. There was a correlation between the performance elements (seed weight per plant, pod and seed numbers per plant) and the total yield of seeds per unit area (r = 0.520 – 0.957).

Characterization of the plastome of Camellia pingguoensis (Theaceae), an endangered and endemic yellow camellia species in China

Camellia pingguoensis D. Fang is a shrub which is found on limestone of karst forests in Guangxi, China. In this study, we characterized the whole plastid genome of C. pingguoensis using Illumina paired-end sequencing reads. The plastome is 156,621 bp in length, containing two copies of inverted repeat (IR) regions (26,046 bp), a large-single copy (LSC) region (86,289 bp), and a small-single copy (SSC) region (18,240 bp). A total of 114 unique genes in the genome has 80 protein-coding genes, 30 tRNA genes, and 4 rRNA genes. The phylogenetic result indicates C. pingguoensis is closely related to C. nitidissima C. W. Chi.

A Comparative Evaluation Of The Proximate Analysis, Mineral Contents And Phytochemical Screening Of Dioscorea Dumetorum (Bitter Yam)

This study sought to probe into the health significance of two (white and yellow) species of Dioscorea dumetorum (bitter yam) based on their chemical composition and phytochemicals. Matured tubers were analyzed for proximate composition, mineral contents and phytochemicals, using standard analytical procedures. Significant differences (p<0.05) were observed between the means of some of the compositions in the two species. The results showed moisture contents of 71.45±0.15 and 75.55±1.20 g% wet weight for white and yellow species respectively. Others in g% dry weight included: crude protein (white, 5.20±0.27; yellow, 5.70±0.35), crude ash (white, 4.75±0.16; yellow, 4.05±0.09), crude fat (white, 0.70±0.20; yellow, 0.72±0.01), crude fibre (white, 15.90±0.75; yellow, 14.95±0.070) and carbohydrate (white, 81.86±0.17; yellow, 75.95±0.05). The most predominant minerals were potassium (white, 680±0.20; yellow, 767.85±1.35), phosphorus (white, 270.00±2.10, yellow, 277.25±3.45), sodium (white, 70.35±1.40; yellow, 76.45±0.05) and magnesium (white, 47.10±0.25; yellow, 67.40±0.05). The yellow species showed significantly higher concentrations over the white. The phytochemical screening revealed much presence of glycosides and alkaloids, but little presence of flavonoids, oxalates, phytates and tannins. The results justify the medicinal use of the tuber and could serve as a synergy to man and animal nutrition.

Effect of Seaweed Extract Spray on Vegetative and Flowering Growth of Two Narcissus Species

An experiment was carried out in the Cloth Canopy, Agricultural Research Station, College of Agriculture, University of Basrah, during the agricultural season 2018-2019, to study the effect of the seaweed extract spray (0, 2 and 4 m.L-1) on vegetative and flowering growth of two Narcissus species. Local white flowers (Narcissus tazetta) and the imported yellow flowers (N. eastertide). A factorial experiment with Randomized Completely Block Design (R.C.B.D) were used, with three replicates, the averages were compared using Least Significant Difference (L.S.D). When the plants reached treated at the emergence completion, leaves were sprayed to wetness full, with three times, the process was repeated every 15 days. The results showed that the white variety was significantly higher as well as plants treated with 4 m.L-1 extract showed significant superiority in all studied traits, the interaction between the white variety and spraying with seaweed extract concentration of 4 m.L-1 had a significant on the number of leaves5.00 leaf plant-1, leaf area 818 cm2, fresh and dry weights (30.16 and 15.70 g) of the vegetative total, flower stem length 45.55 cm, vase life 17.29 day. while the interaction between the yellow species and spraying with seaweed extract concentration of 4 m.L-1 had a significant on fresh and dry weight of the flowers (16.80 and 1.73 g).

Photooxidation Reactions of Cyclometalated Palladium(II) and Platinum(II) Complexes.

New C,N,S-cyclometalated palladium(II) and platinum(II) complexes have been synthesized and their structural, electrochemical, and photochemical properties examined. The blue color of these complexes in solution changed to yellow under visible-light irradiation. By measurement of the absorption spectra for quantifying changes in color, isosbestic points for each complex clearly indicated the presence of only two species responsible for the change of color. X-ray analysis revealed that the visible-light-induced yellow species were S-oxygenated sulfinato complexes. Photosensitized generation of singlet oxygen (1O2) was confirmed by the direct detection of singlet oxygen luminescence at 1275 nm. The present cyclometalated palladium(II) and platinum(II) complexes are efficient photosensitizers of singlet oxygen, which rapidly reacts with coordinating sulfur atoms.

Species turnover between the northern and southern part of the South China Sea in the Elaphropeza Macquart mangrove fly communities of Hong Kong and Singapore (Insecta: Diptera: Hybotidae)

A recent survey of the mangroves around Hong Kong revealed the presence of seven species of the genus Elaphropeza Macquart, 1827. All belong to a group of yellow species that occur exclusively in mangroves. Three species were previously known: Elaphropeza calcarifera Bezzi, 1912 and E. xanthocephala Bezzi, 1912, both from Taiwan, and E. riatanae Shamshev & Grootaert, 2007 from Singapore. Four species are new to science: Elaphropeza furcatella sp. nov., E. guenardi sp. nov., E. hongkongensis sp. nov. and E. hongshulin sp. nov. All seven species are described or an extended diagnosis is provided. All species are figured and NGS barcodes are made available. A key is given for the Hong Kong species and their siblings from Singapore and Taiwan. Remarkable is that five of the seven species are more or less closely related to species occurring in Singapore. Genetic distances and morphologic differences are congruent. The species turnover between the northern part and the southern part of the South China Sea is high, with only one of the seven species present in both regions.

Comparison of habitats of the rare fungus Pluteus fenzlii between Białowieża Virgin Forest (Poland) and thermophilous forests (Slovakia)

AbstractPluteus fenzlii is a rare Eurasian lignicolous fungus, an iconic bright yellow species that attracts attention. Its habitat in the Białowieża Virgin Forest, Poland, is dominated by Carpinus betulus with admixture of Quercus robur, Tilia cordata and Picea abies, with an herb layer typical for the Carpinion betuli alliance. In Slovakia, the country hosting the highest number of localities worldwide, P. fenzlii prefers closed canopy of thermophilous forest with dominance of Quercus cerris and adjacent Quercus robur agg., Q. petraea agg., Carpinus betulus and Tilia cordata. In the Natura 2000 classification this vegetation belongs to habitat 91M0, Pannonian-Balkanic Turkey Oak-Sessile Oak forests, and priority habitat 91G0, Pannonic woods with Quercus petraea and Carpinus betulus. The Slovak localities can be assigned to the mycosociological community Boleto (aerei)–Russuletum luteotactae, typical for thermophilous oak forests of Southern Europe and extrazonal areas in Central Europe. The presence of P. fenzlii at the isolated Białowieża locality could represent either a remote site of its present occurrence or a remnant of its former distribution, connected with the relict occurrence of thermophilous vegetation in Białowieża where continental oak forests have already disappeared.

SURVIVAL OF PINUS WASHOENSIS (PINACEAE) FOLLOWING FIRE ON BABBITT PEAK, SIERRA COUNTY, CALIFORNIA

The Cottonwood Fire consumed about 185 square kilometers in the Tahoe and Toiyabe National Forests near Loyalton and Sierraville, CA in 1994. The wildfire reached a population of one of the rarest pines in North America, Pinus washoensis H.Mason & Stockw. (Washoe pine), in the Babbitt Peak Research Natural Area (RNA). A field survey and census was conducted in 1996 to find, map, and count living and dead P. washoensis individuals, and to assess the effects of the fire on the population. Although the fire reached most of the P. washoensis stands, 763 living reproductive individuals were found and less than 5.2% mortality was observed. The fire's intensity declined as it crossed the Bald Mountain ridge and mostly consumed understory vegetation and litter in the P. washoensis stands. The fire had the potential to devastate or eliminate this rare population, but instead, a combination of stochastic, vegetative, and topographic controls spared the P. washoensis stands and appears to have had beneficial effects for this population. All age classes of P. washoensis except seedlings were found in the Bald Mountain Range. The lack of seedlings is surprising because the two years between fire and survey had high precipitation. No sign of hybridization with other yellow pine species was evident. While it is promising that the stands of this rare pine survived the Cottonwood Fire, prospects for the continued persistence of this population are not good until there is a reproductive year that provides many recruits.

The complete chloroplast genome sequence of Camellia mingii (Theaceae), a critically endangered yellow camellia species endemic to China

Camellia mingii is a recently described and critically endangered new species from Southeast Yunnan Province, China. Genetic information of C. mingii would provide guidance for the conservation of this wild yellow camellia. Here, we reported and characterized its complete chloroplast (cp) genome using Illumina pair-end sequencing data. The total chloroplast genome size was 156,806 bp, including inverted repeats (IRs) of 26,020 bp, separated by a large single copy (LSC) and a small single copy (SSC) of 86,536 and 18,230 bp, respectively. A total of 132 genes, including 37 tRNA, eight rRNA, and 87 protein-coding genes were identified. Phylogenetic analysis showed that C. mingii was closely related to the clade containing C. huana and C. impressinervis.