Summary Effective insect pollination requires appropriate responses to internal and external environmental cues in both the plant and the pollinator. Helianthus annuus, a highly outcrossing species, is marked for its uniform eastward orientation of mature pseudanthia, or capitula. Here we investigate how this orientation affects floral microclimate and the consequent effects on plant and pollinator interactions and reproductive fitness. We artificially manipulated sunflower capitulum orientation and temperature in both field and controlled conditions and assessed flower physiology, pollinator visits, seed traits and siring success. East‐facing capitula were found to have earlier style elongation, pollen presentation and pollinator visits compared with capitula manipulated to face west. East‐facing capitula also sired more offspring than west‐facing capitula and under some conditions produced heavier and better‐filled seeds. Local ambient temperature change on the capitulum was found to be a key factor regulating the timing of style elongation, pollen emergence and pollinator visits. These results indicate that eastward capitulum orientation helps to control daily rhythms in floral temperature, with direct consequences on the timing of style elongation and pollen emergence, pollinator visitation, and plant fitness.
Begomoviruses (family Geminiviridae) are responsible for extreme yield reduction in a number of economically important crops including medicinal and aromatic plants (MAPs). Emergence of new variants of viruses due to recombination and mutations in the genomes, modern cropping systems, introduction of susceptible plant varieties, global trade in agricultural products, and changes in climatic conditions are responsible for aggravating the begomovirus problems during the last two decades. This review summaries the current research work on begomoviruses affecting MAPs and provides various traditional and advanced strategies for the management of begomoviruses and vector in MAPs.
The Mexican marigold (Tagetes erecta) is cultivated commercially in India for medicinal, ceremonial, and decorative purposes. It is native to Mexico and the United States. The natural phytochemical thiophene extracted from T. erecta has been shown to have antibacterial activity. It is also grown to extract lutein, a common yellow/orange food color. During winter of 2011, approximately 15% marigold seedlings exhibited damping off symptoms at CSIR-CIMAP, Lucknow, India, and its adjoining areas. Infected seedlings initially produced water-soaked lesions on the stem at the soil level that later turned pinkish with a brownish halo in the center. The infected seedlings were cut into small pieces, surface disinfected with 1% sodium hypochlorite, rinsed thrice with sterile distilled water, and placed onto potato dextrose agar (PDA) plates. The plates were incubated at 25°C for 3 days. The isolation yielded whitish fungal growth that later turned tan brown. The mycelium was binucleate, septate, sub branching at right angles, with distinct constriction at the origin of branching. Bisbenzamide (Hoechst 33258; Chemical Abstracts no. 23491-45-4) was used as fluorescent dye for the staining of nuclei. Based on cultural as well as morphological characteristic features, the fungus was identified as Ceratobasidium sp. (1,2). The molecular identification was on the basis of internal transcribed spacer (ITS) region sequence. Amplification of the ITS of rDNA using primers ITS1/ITS4 yielded a ~700 bp band and sequenced data were deposited in the NCBI GenBank (KC193238). The ITS region (700 bp) was 100% identical to Ceratobasidium sp. AG-F strain BAGF101 isolated from Musa spp. in Georgia, United States (GenBank Accession No. HQ168370). The pathogenicity of the fungus was tested under glasshouse conditions. The inoculum of the fungus was prepared on sterile maize seeds in Erlenmeyer flasks by inoculating seeds with three disks (1 mm) of 5-day-old culture, and kept at 25 ± 2 °C for 14 days in the dark. The healthy, 5 to 7 day old seedlings were inoculated with five artificially infested maize seeds per pot. The uninoculated seedlings served as control. Both inoculated and uninoculated seedlings were kept at 28 ± 2°C in a humidity (95%) chamber for 3 days and thereafter placed in the glasshouse at 28 ± 2°C for development of disease symptoms. Initial symptoms developed as water-soaked lesions on the infected seedlings in 2 to 3 days, while typical disease symptoms appeared after 4 to 5 days of inoculation. Uninoculated seedlings were free from infection. The fungus was reisolated from the artificially infected seedlings on PDA and its identification as Ceratobasidium sp. was confirmed by morphological and molecular characteristics. Recently, Ceratobasidium sp. was reported as causal organism of root rot on Atractylodes macrocephala and banana (3,4). To the best of our knowledge, marigold damping off disease caused by Ceratobasidium sp. has not been reported so far on T. erecta. Hence, it is the first report from India. During fungal disease management for marigold, association of Ceratobasidium sp. should not be ignored for better crop protection. References: (1) R. T. Moore. Mycotaxon 29:91, 1987. (2) B. Sneh et al. Identification of Rhizoctonia Species. The American Phytopathological Society, St. Paul, MN. 1991. (3) J. Yin et al. Plant Dis. 95:490, 2011. (4) J. M. You et al. Plant Dis.97:139, 2013.
Mint (Mentha spp.; family Lamiaceae) is an important essential oil-bearing crop cultivated on the Indian subcontinent as a cash crop for the international market and industrial purposes. Since May 2010, typical symptoms such as yellow vein, leaf yellowing, mosaic, crinkling, and cupping were observed, which led to significant yield loss in spearmint (M. spicata var. Neera) at CIMAP experimental fields and farmers' fields of Badaun, Rampur, and Moradabad regions of Uttar Pradesh province, India. Disease incidence was recorded in the range of 40 to 50%. Mentha spp. has been reported to be affected by many viral diseases (3). Due to the absence of fungal/bacterial infection, lack of mechanical transmission of the pathogen, and presence of whiteflies in the fields, the causal pathogen was suspected to be a begomovirus. Total genomic DNA was extracted from the leaves of naturally infected and healthy samples of Mentha by the CTAB protocol. Eighteen symptomatic samples were collected from different location of fields and screened for the presence of begomovirus. DNA from these samples was used as PCR template to amplify a 771-bp fragment using begomovirus coat protein (CP) gene specific primers. Eleven of 18 (61.1%) samples were found positive. PCR products were cloned into the pGEM-T Easy (Promega) and sequenced using the universal M13F/M13R primers showed sequence similarity with Chilli leaf curl India virus. To amplify the full-length DNA-A/B and a possible β-satellite, a second detection method was used: rolling circle amplification (RCA) using the TempliPhi 100 Amplification System (GE Healthcare). RCA products were digested independently with various restriction enzymes: BamHI, EcoRI, EcoRV, HincII, HindIII, SacI, and KpnI. Digested products were resolved on 1% agarose gel and the bands corresponding to ~2.7 and ~1.3 kb were purified using Nucleospin Gel and PCR Clean-up Kit and cloned into the respective sites of pGreen0029 vector. The sequence of full-length DNA-A (2,749 bp) and β-satellite component (1,347-bp) were obtained and deposited in NCBI GenBank with accession nos. KF312364 and KF364485, respectively. The sequence analysis showed maximum nucleotide identity (99%) with Chilli leaf curl India virus (FM877858) and distant affinities (≤88%) with other begomoviruses. The sequence analysis of isolated β-satellite showed 93% identity with Ageratum yellow vein virus satellite (AJ252072.1). No presence of DNA-B was detected using the universal primer PBL1v2040/PCRc1 (2), thus confirming it to be a monopartite begomovirus (1). Viruliferous whiteflies (Bemisia tabaci) proved Koch's postulation by inducing similar symptoms on healthy plants while aphids (Myzus persicae) failed to transmit the virus. To our knowledge, this is the first report of Chilli leaf curl India virus infecting M. spicata var. Neera in India. Mint is widely grown together with other reported hosts of begomoviruses, and thus could pose a serious threat as future expansion of begomovirus to new crops. Hence, the development of resistant varieties coupled with the implementation of adapted integrated pest management strategies would be essential for successful production of mint crops. References: (1) Y. Kumar et al. Plant Pathol. 60:1040, 2011. (2) M. R. Rojas et al. Plant Dis. 77:340, 1993. (3) I. E. Tzanetakis et al. Plant Dis. 94:4, 2010.
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