Your search keyword '"Plant Nectar analysis"' showing total 60 results

51. A rapid differentiation between oak honeydew honey and nectar and other honeydew honeys by NMR spectroscopy.

Author

Simova S, Atanassov A, Shishiniova M, and Bankova V

Subjects

Quercus chemistry, Honey analysis, Magnetic Resonance Spectroscopy, Plant Nectar analysis

Abstract

An NMR-based approach for rapid differentiation of oak honeydew honey from all other honey types (floral and other honeydew honeys) was proposed. It is based on the identification of the signals of the protons and the carbon of the methylene group of quercitol in the (1)H and (13)C NMR spectra of honey. The presence of quercitol was supported by TOCSY spectroscopy. Quercitol is a deoxyinositol which is regarded as a good taxonomic marker for the genus Quercus. All samples of oak honeydew honey contained quercitol, while in floral honey samples and honeydew honeys from fir and spruce it was absent. In addition, the described approach is promising with respect to quercitol quantification in honey by qNMR., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

52. Metschnikowia proteae sp. nov., a nectarivorous insect-associated yeast species from Africa.

Author

de Vega C, Guzmán B, Lachance MA, Steenhuisen SL, Johnson SD, and Herrera CM

Subjects

Animals, Candida classification, Candida genetics, Candida isolation & purification, DNA, Fungal genetics, Genes, rRNA, Metschnikowia genetics, Metschnikowia isolation & purification, Molecular Sequence Data, Plant Nectar analysis, Sequence Analysis, DNA, South Africa, Coleoptera microbiology, Drosophilidae microbiology, Flowers microbiology, Metschnikowia classification, Phylogeny

Abstract

A collection of yeasts isolated from nectar of flowers of Protea caffra (Proteaceae) and associated scarab beetles (Atrichelaphinis tigrina, Cyrtothyrea marginalis, Trichostetha fascicularis and Heterochelus sp.) and drosophilid flies in South Africa, contained 28 isolates that could not be assigned to known species. Comparisons of the D1/D2 domains of the large subunit rRNA gene demonstrated the existence of three separate phylotypes with an affinity to the genus Metschnikowia and more specifically to the beetle-associated large-spored Metschnikowia clade. Twenty-six strains that had similar D1/D2 sequences were mixed in all pairwise combinations. They were found to mate and give rise to large asci typical of those in the clade. The name Metschnikowia proteae sp. nov. (type strain EBDT1Y1(T) = CBS 12522(T) = NRRL Y-48784(T); allotype strain EBDC2Y2 = CBS 12521 = NRRL Y-48785) is proposed to accommodate this novel species. The ecology of this novel yeast species is discussed in relation to its potential plant and insect host species. The additional two single strains isolated from Heterochelus sp. represent two novel undescribed species (Candida sp. 1 EBDM2Y3 and Candida sp. 2 EBDM8Y1). As these single strains are probably haploid mating types of Metschnikowia species, their description is deferred until the species are sufficiently well sampled to permit meaningful descriptions.

Published

2012

53. Zooming-in on floral nectar: a first exploration of nectar-associated bacteria in wild plant communities.

Author

Alvarez-Pérez S, Herrera CM, and de Vega C

Subjects

Bacteriological Techniques, DNA, Bacterial genetics, Gammaproteobacteria classification, Gammaproteobacteria isolation & purification, Genes, Bacterial, Plants microbiology, RNA, Ribosomal, 16S genetics, South Africa, Biodiversity, Flowers microbiology, Gammaproteobacteria genetics, Phylogeny, Plant Nectar analysis

Abstract

Floral nectar of some animal-pollinated plants usually harbours highly adapted yeast communities which can profoundly alter nectar characteristics and, therefore, potentially have significant impacts on plant reproduction through their effects on insect foraging behaviour. Bacteria have also been occasionally observed in floral nectar, but their prevalence, phylogenetic diversity and ecological role within plant-pollinator-yeast systems remains unclear. Here we present the first reported survey of bacteria in floral nectar from a natural plant community. Culturable bacteria occurring in a total of 71 nectar samples collected from 27 South African plant species were isolated and identified by 16S rRNA gene sequencing. Rarefaction-based analyses were used to assess operational taxonomic units (OTUs) richness at the plant community level using nectar drops as sampling units. Our results showed that bacteria are common inhabitants of floral nectar of South African plants (53.5% of samples yielded growth), and their communities are characterized by low species richness (18 OTUs at a 16S rRNA gene sequence dissimilarity cut-off of 3%) and moderate phylogenetic diversity, with most isolates belonging to the Gammaproteobacteria. Furthermore, isolates showed osmotolerance, catalase activity and the ability to grow under microaerobiosis, three traits that might help bacteria to overcome important factors limiting their survival and/or growth in nectar., (© 2012 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)

Published

2012

54. Knockdown of MYB305 disrupts nectary starch metabolism and floral nectar production.

Author

Liu G and Thornburg RW

Subjects

Binding Sites, Carbohydrate Metabolism genetics, Flavonoids analysis, Flavonoids metabolism, Flowers growth & development, Flowers metabolism, Gene Expression Regulation, Developmental genetics, Gene Knockdown Techniques, Glucose-1-Phosphate Adenylyltransferase genetics, Isoamylase genetics, Phenotype, Plant Nectar analysis, Plant Proteins genetics, Plant Proteins metabolism, Plants, Genetically Modified, Promoter Regions, Genetic genetics, RNA Interference, Starch analysis, Nicotiana enzymology, Nicotiana growth & development, Transcription Factors metabolism, alpha-Amylases genetics, beta Carotene analysis, beta Carotene metabolism, beta-Amylase genetics, Flowers genetics, Gene Expression Regulation, Plant genetics, Plant Nectar metabolism, Starch metabolism, Nicotiana genetics, Transcription Factors genetics

Abstract

MYB transcription factors have important roles during floral organ development. In this study, we generated myb305 RNAi knockdown tobacco plants and studied the role of MYB305 in the growth of the floral nectary. We have previously shown the MYB305 regulates the expression of flavonoid metabolic genes as well as of nectar proteins (nectarins); however, the myb305 plants showed other floral phenotypes that we investigate in these studies. The nectaries of myb305 plants show juvenile character at late stages of development and secrete reduced levels of nectar. Because starch metabolism is intimately involved in nectar secretion and is strongly regulated during normal nectary development, we examined the accumulation of starch in the nectaries of the myb305 plants. The myb305 plants accumulated lower levels of starch in their nectaries than did wild-type plants. The reduced starch correlated with the reduced expression of the ATP-glucose pyrophosphorylase (small subunit) gene in nectaries of the myb305 plants during the starch biosynthetic phase. Expression of genes encoding several starch-degrading enzymes including β-amylase, isoamylase 3, and α-amylase was also reduced in the myb305 plants. In addition to regulating nectarin and flavonoid metabolic gene expression, these results suggest that MYB305 may also function in the tobacco nectary maturation program by controlling the expression of starch metabolic genes., (© 2011 The Authors. The Plant Journal © 2011 Blackwell Publishing Ltd.)

Published

2012

55. Selection on floral design in Polemonium brandegeei (Polemoniaceae): female and male fitness under hawkmoth pollination.

Author

Kulbaba MW and Worley AC

Subjects

Animals, Feeding Behavior, Flowers anatomy & histology, Flowers genetics, Flowers physiology, Genetic Fitness, Hermaphroditic Organisms genetics, Magnoliopsida genetics, Plant Nectar analysis, Sex Distribution, Hermaphroditic Organisms physiology, Magnoliopsida anatomy & histology, Magnoliopsida physiology, Moths physiology, Pollination

Abstract

Plant-pollinator interactions promote the evolution of floral traits that attract pollinators and facilitate efficient pollen transfer. The spatial separation of sex organs, herkogamy, is believed to limit sexual interference in hermaphrodite flowers. Reverse herkogamy (stigma recessed below anthers) and long, narrow corolla tubes are expected to promote efficiency in male function under hawkmoth pollination. We tested this prediction by measuring selection in six experimental arrays of Polemonium brandegeei, a species that displays continuous variation in herkogamy, resulting in a range of recessed to exserted stigmas. Under glasshouse conditions, we measured pollen removal and deposition, and estimated selection gradients (β) through female fitness (seeds set) and male fitness (siring success based on six polymorphic microsatellite loci). Siring success was higher in plants with more nectar sugar and narrow corolla tubes. However, selection through female function for reverse herkogamy was considerably stronger than was selection through male function. Hawkmoths were initially attracted to larger flowers, but overall preferred plants with reverse herkogamy. Greater pollen deposition and seed set also occurred in reverse herkogamous plants. Thus, reverse herkogamy may be maintained by hawkmoths through female rather than male function. Further, our results suggest that pollinator attraction may play a considerable role in enhancing female function., (© 2011 The Author(s). Evolution© 2011 The Society for the Study of Evolution.)

Published

2012

56. High activity enables life on a high-sugar diet: blood glucose regulation in nectar-feeding bats.

Author

Kelm DH, Simon R, Kuhlow D, Voigt CC, and Ristow M

Subjects

Animals, Chiroptera physiology, Diet, Dietary Carbohydrates analysis, Dietary Carbohydrates metabolism, Energy Metabolism, Glucose Tolerance Test veterinary, Plant Nectar analysis, Plant Nectar metabolism, Time Factors, Blood Glucose analysis, Blood Glucose metabolism, Chiroptera metabolism, Motor Activity

Abstract

High blood glucose levels caused by excessive sugar consumption are detrimental to mammalian health and life expectancy. Despite consuming vast quantities of sugar-rich floral nectar, nectar-feeding bats are long-lived, provoking the question of how they regulate blood glucose. We investigated blood glucose levels in nectar-feeding bats (Glossophaga soricina) in experiments in which we varied the amount of dietary sugar or flight time. Blood glucose levels increased with the quantity of glucose ingested and exceeded 25 mmol l(-1) blood in resting bats, which is among the highest values ever recorded in mammals fed sugar quantities similar to their natural diet. During normal feeding, blood glucose values decreased with increasing flight time, but only fell to expected values when bats spent 75 per cent of their time airborne. Either nectar-feeding bats have evolved mechanisms to avoid negative health effects of hyperglycaemia, or high activity is key to balancing blood glucose levels during foraging. We suggest that the coevolutionary specialization of bats towards a nectar diet was supported by the high activity and elevated metabolic rates of these bats. High activity may have conferred benefits to the bats in terms of behavioural interactions and foraging success, and is simultaneously likely to have increased their efficiency as plant pollinators.

Published

2011

57. Pollinator directionality as a response to nectar gradient: promoting outcrossing while avoiding geitonogamy.

Author

Fisogni A, Cristofolini G, Rossi M, and Galloni M

Subjects

Animals, Flowers growth & development, Italy, Pollen growth & development, Reproduction physiology, Self-Fertilization physiology, Bees physiology, Behavior, Animal physiology, Dictamnus physiology, Flowers chemistry, Plant Nectar analysis, Pollination physiology

Abstract

Plants with multiple flowers could be prone to autonomous self-pollination and insect-mediated geitonogamy, but physiological and ecological features have evolved preventing costs related to autogamy. We studied the rare perennial herb Dictamnus albus as a model plant, with the aim of describing the plant-pollinator system from both plant and pollinator perspectives and analysing features that promote outcrossing in an entomophilous species. The breeding system and reproductive success of D. albus were investigated in experimental and natural conditions, showing that it is potentially self-compatible, but only intra-inflorescence insect-mediated selfing is possible. Nectar analysis showed gender-biased production towards the female phase, which follows the male phase, and during flowering, full blooming is found in flowers at the bottom of the raceme. Among a wide spectrum of insect visitors, three genera (Bombus, Apis, Megachile) were found to be principal pollinators. A study of insect behaviour showed a tendency towards bottom-to-top flights for the most important pollinators Bombus spp. and Apis mellifera: upward movements on the racemes could be explained by foraging behaviour, from more to less rewarding flowers. In accordance with the 'declining reward hypothesis', bumblebees and honeybees leave the plant when gain of reward is low, after which few flowers are visited, reducing the chance of self-pollen transfer among flowers. Intra-flower self-pollination is prevented in D. albus by protandry and herkogamy, while the nectar-induced sequential pattern of pollinator visits avoids geitonogamy and tends to maximise pollen export, promoting outcrossing. All these features for preventing selfing benefit plant fitness and population genetic structure., (© 2011 German Botanical Society and The Royal Botanical Society of the Netherlands.)

Published

2011

58. Selective seed abortion induced by nectar robbing in the selfing plant Comastoma pulmonarium.

Author

Zhang C, Irwin RE, Wang Y, He YP, Yang YP, and Duan YW

Subjects

Analysis of Variance, Animals, Biomass, Germination physiology, Inbreeding, Ovule physiology, Reproduction physiology, Seeds growth & development, Tibet, Gentianaceae physiology, Plant Nectar analysis, Pollination physiology, Seeds physiology

Abstract

• Self-pollination often provides plants with the benefit of reproductive assurance; thus, it is generally assumed that species' interactions that alter floral attractiveness or rewards, such as nectar robbing, will have little effect on the seed production of selfing species. We challenge this view with experimental data from Comastoma pulmonarium, a selfing annual experiencing a high ratio of nectar robbing in the Qinghai-Tibet Plateau. • We manipulated robbing (robbed or netted) and pollination mode (hand-selfed or hand-outcrossed) in a factorial design and measured the number of developing ovules and mature seeds, together with seed weight and seed germination, in each treatment. • Robbing decreased the number of mature seeds, but not the number of developing ovules, suggesting a negative influence of robbers through indirect effects via selective seed abortion. We found no evidence for early-acting inbreeding depression, but found later-acting inbreeding depression. Our data also suggested that later-acting inbreeding depression of progeny from robbed flowers could be reduced in comparison with that from unrobbed flowers. • We suggest that nectar robbing can have both negative and positive effects on the quantity and quality, respectively, of progeny produced in selfing plants, and challenge the view that robbing has no effect on selfing species., (© 2011 The Authors. New Phytologist © 2011 New Phytologist Trust.)

Published

2011

59. Quality of mango nectar processed by high-pressure homogenization with optimized heat treatment.

Author

Tribst AA, Franchi MA, de Massaguer PR, and Cristianini M

Subjects

Ascorbic Acid metabolism, Aspergillus niger growth & development, Beverages microbiology, Colony Count, Microbial, Food Microbiology, Fruit microbiology, Hot Temperature, Oxidation-Reduction, Pigmentation, Spores, Fungal growth & development, Food Handling methods, Food Preservation methods, Mangifera microbiology, Plant Nectar analysis, Pressure

Abstract

Unlabelled: This work aimed to evaluate the effect of high-pressure homogenization (HPH) with heat shock on Aspergillus niger, vitamin C, and color of mango nectar. The nectar was processed at 200 MPa followed by heat shock, which was optimized by response surface methodology by using mango nectar ratio (45 to 70), heat time (10 to 20), and temperature (60 to 85 °C) as variables. The color of mango nectar and vitamin C retention were evaluated at the optimized treatments, that is, 200 MPa + 61.5 °C/20 min or 73.5 °C/10 min. The mathematical model indicates that heat shock time and temperature showed a positive effect in the mould inactivation, whereas increasing ratio resulted in a protective effect on A. niger. The optimized treatments did not increase the retention of vitamin C, but had positive effect for the nectar color, in particular for samples treated at 200 MPa + 61.5 °C/20 min., Practical Application: The results obtained in this study show that the conidia can be inactivated by applying HPH with heat shock, particularly to apply HPH as an option to pasteurize fruit nectar for industries.

Published

2011

60. Floral markers of strawberry tree (Arbutus unedo L.) honey.

Author

Tuberoso CI, Bifulco E, Caboni P, Cottiglia F, Cabras P, and Floris I

Subjects

Flowers chemistry, Homogentisic Acid analysis, Plant Nectar analysis, Biomarkers analysis, Ericaceae chemistry, Honey analysis, Plant Preparations analysis

Abstract

Strawberry tree honey, due to its characteristic bitter taste, is one of the most typical Mediterranean honeys, with Sardinia being one of the largest producers. According to specific chemical studies, homogentisic acid was identified as a possible marker of this honey. This work, based on HPLC-DAD-MS/MS analysis of strawberry tree (Arbutus unedo L.) honeys, previously selected by sensory evaluation and melissopalynological analysis, showed that, in addition to the above-mentioned acid, there were other high levels of substances useful for the botanical classification of this unifloral honey. Two of these compounds were isolated and identified as (+/-)-2-cis,4-trans-abscisic acid (c,t-ABA) and (+/-)-2-trans,4-trans-abscisic acid (t,t-ABA). A third compound, a new natural product named unedone, was characterized as an epoxidic derivative of the above-mentioned acids. Structures of c,t-ABA, t,t-ABA, and unedone were elucidated on the basis of extensive 1D and 2D NMR experiments, as well as HPLC-MS/MS and Q-TOF analysis. In selected honeys the average amounts of c,t-ABA, t,t-ABA, and unedone were 176.2+/-25.4, 162.3+/-21.1, and 32.9+/-7.1 mg/kg, respectively. Analysis of the A. unedo nectar confirmed the floral origin of these compounds found in the honey. Abscisic acids were found in other unifloral honeys but not in such high amount and with a constant ratio of about 1:1. For this reason, besides homogentisic acid, these compounds could be used as complementary markers of strawberry tree honey.

Published

2010