Volatile organic compound profiling of Capsicum annuum var. longum grown under different concentrations of nitrogen

Aliyu, L. 2000. Effect of organic and mineral fertilizers on growth, yield, and composition of pepper (Capsicum annuum L.). Biological Agriculture and Horticulture, 18(1): 29-36.10.1080/01448765.2000.9754862 Search in Google Scholar

Anitha, S. and Geethakumari, V.L. 2006. Nutrient management in chilli (Capsicum annuum L.) based cropping system. Indian Journal of Crop Science, 1(1 and 2): 209-210. Search in Google Scholar

Aranega-Bou, P., de la O Leyva, M., Finiti, I., García-Agustín, P. and González-Bosch, C. 2014. Priming of plant resistance by natural compounds. Hexanoic acid as a model. Frontiers in Plant Science, 5: 488. Search in Google Scholar

Bargavi, R. and Elumalai, S. 2010. In vitro clonal propogation of Capsicum annum L. var.(Arka lohit and Arka suphal) for fruit borer disease resistance. Biosciences, Biotechnology Research Asia, 7(1): 281-8. Search in Google Scholar

Cirlini, M., Luzzini, G., Morini, E., Folloni, S., Ranieri, R., Dall’Asta, C. and Galaverna, G., 2019. Evaluation of the volatile fraction, pungency and extractable color of different Italian Capsicum annuum cultivars designed for food industry. European Food Research and Technology, 245(12): 2669-2678.10.1007/s00217-019-03378-x Search in Google Scholar

Effah, E., Holopainen, J.K. and McCormick, A.C. 2019. Potential roles of volatile organic compounds in plant competition. Perspectives in Plant Ecology, Evolution and Systematics, 38: 58-63. Search in Google Scholar

Eggink, P.M., Maliepaard, C., Tikunov, Y., Haanstra, J.P.W., Bovy, A.G. and Visser, R.G.F., 2012b. A taste of sweet pepper: Volatile and non-volatile chemical composition of fresh sweet pepper (Capsicum annuum) in relation to sensory evaluation of taste. Food Chemistry, 132(1): 301-310.10.1016/j.foodchem.2011.10.081 Search in Google Scholar

Eggink, P.M., Maliepaard, C., Tikunov, Y., Haanstra, J.P.W., Pohu-Flament, L.M.M., de Wit-Maljaars, S.C., Willeboordse-Vos, F., Bos, S., Benningde Waard, C., De Grauw-van Leeuwen, P.J. and Freymark, G., 2012a. Prediction of sweet pepper (Capsicum annuum) flavor over different harvests. Euphytica, 187(1): 117-131.10.1007/s10681-012-0761-6 Search in Google Scholar

Finiti, I., de la O Leyva, M., Vicedo, B., Gómez-Pastor, R., López-Cruz, J., García-Agustín, P., Real, M.D. and González-Bosch, C. 2014. Hexanoic acid protects tomato plants against Botrytis cinerea by priming defense responses and reducing oxidative stress. Molecular Plant Pathology, 15(6): 550-562.10.1111/mpp.12112 Search in Google Scholar

Firdaus, S., Van Heusden, A., Harpenas, A., Supena, E. D., Visser, R.G., and Vosman, B. 2011. Identification of silverleaf whitefly resistance in pepper. Plant Breeding, 130(6): 708-714.10.1111/j.1439-0523.2011.01894.x Search in Google Scholar

Gaytán, V.G., Merino, F.C., Téllez, L.I., Castillo, G. and Morales, S.G. 2017. The Chilhuacle Chili (Capsicum annuum L.) in Mexico: Description of the Variety, Its Cultivation, and Uses, International Journal of Agronomy, v. 2017, Article ID 564168010.1155/2017/5641680 Search in Google Scholar

Gou, W., Zheng, P., Tian, L., Gao, M., Zhang, L., Akram, N.A. and Ashraf, M. 2017. Exogenous application of urea and a urease inhibitor improves drought stress tolerance in maize (Zea mays L.). Journal of Plant Research, 130(3): 599-609.10.1007/s10265-017-0933-5 Search in Google Scholar

Gouinguené, S.P. and Turlings, T.C. 2002. The effects of abiotic factors on induced volatile emissions in corn plants. Plant Physiology, 129(3): 1296-1307.10.1104/pp.001941 Search in Google Scholar

Hansen, U. and Seufert, G. 1999. Terpenoid emission from Citrus sinensis (L.) OSBECK under drought stress. Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere, 24(6): 681-687.10.1016/S1464-1909(99)00065-9 Search in Google Scholar

Hansen, U. and Seufert, G. 2003. Temperature and light dependence of β-caryophyllene emission rates. Journal of Geophysical Research: Atmospheres, 108(D24).10.1029/2003JD003853 Search in Google Scholar

Heiser Jr, C.B., and Pickersgill, B. 1969. Names for the Cultivated Capsicum Species (Solanaceae). Taxon, 18 (3): 277–283.10.2307/1218828 Search in Google Scholar

Hiltpold, I., Toepfer, S., Kuhlmann, U. and Turlings, T.C. 2010. How maize root volatiles affect the efficacy of entomopathogenic nematodes in controlling the western corn rootworm? Chemo-ecology, 20(2): 155-162. Search in Google Scholar

Holopainen, J.K., and Gershenzon, J. 2010. Multiple stress factors and the emission of plant VOCs. Trends in Plant Science, 15(3): 176-184.10.1016/j.tplants.2010.01.00620144557 Search in Google Scholar

Islam, M., Saha, S., Akand, H. and Rahim, A. 2011. Effect of spacing on the growth and yield of sweet pepper (Capsicum annuum L.). Journal of Central European Agriculture, 12(2): 328-335.10.5513/JCEA01/12.2.917 Search in Google Scholar

Islam, M.N., Hasanuzzaman, A.T.M., Zhang, Z.F., Zhang, Y. and Liu, T.X. 2017. High Level of Nitrogen Makes Tomato Plants Releasing Less Volatiles and Attracting More Bemisia tabaci (Hemiptera: Aleyrodidae). Frontiers in Plant Science, 8: 466.10.3389/fpls.2017.00466537421128408917 Search in Google Scholar

James, D. G. 2005. Further field evaluation of synthetic herbivore-induced plan volatiles as attractants for beneficial insects. Journal of Chemical Ecology, 31(3): 481-495.10.1007/s10886-005-2020-y15898496 Search in Google Scholar

Jansson, R. K., and Smilowitz, Z. 1986. Influence of nitrogen on population parameters of potato insects: abundance, population growth, and within-plant distribution of the green peach aphid, Myzus persicae (Homoptera: Aphididae). Environmental Entomology, 15(1): 49-55.10.1093/ee/15.1.49 Search in Google Scholar

Janzantti, N., Macoris, M., Garruti, D. and Monteiro, M. 2012. Influence of the cultivation system in the aroma of the volatile compounds and total antioxidant activity of passion fruit, LWT - Food Science and Technology, 46: 511-51810.1016/j.lwt.2011.11.016 Search in Google Scholar

Jassbi, A.R., Zamanizadehnajari, S. and Baldwin, I.T. 2010 Phytotoxic volatiles in the roots and shoots of Artemisia tridentata as detected by headspace solid-phase microextraction and gas chromatographic-mass spectrometry analysis. Journal of Chemical Ecology, 36(12): 1398-1407.10.1007/s10886-010-9885-021086024 Search in Google Scholar

Jauset, A.M., Sarasua, M.J., Avilla, J., and Albajes, R. 1998. The impact of nitrogen fertilization of tomato on feeding site selection and oviposition by Trialeurodes vaporariorum. Entomologia Experimentalis et Applicata, 86(2): 175-182.10.1046/j.1570-7458.1998.00278.x Search in Google Scholar

Kirstine, W.V. and Galbally, I.E. 2004. A Simple Model for Estimating Emissions of Volatile Organic Compounds from Grass and Cut Grass in Urban Airsheds and Its Application to Two Australian Cities, Journal of the Air and Waste Management Association, 54(10): 1299-1311. Search in Google Scholar

Kirstine, W.V., Galbally, I.E., Ye, Y. and Hooper, M. 1998. Emissions of volatile organic compounds (primarily oxygenated species) from pasture, Journal of Geophysical Research, 103: 10605-10619. Search in Google Scholar

Kreuzwieser, J., Scheerer, U., Kruse, J., Burzlaff, T., Honsel, A., Alfarraj, S., Georgiev, P., Schnitzler, J.P., Ghirardo, A., Kreuzer, I. and Hedrich, R. 2014. The Venus flytrap attracts insects by the release of volatile organic compounds. Journal of Experimental Botany, 65(2): 755-766.10.1093/jxb/ert455 Search in Google Scholar

Kunishima, M., Yamauchi, Y., Mizutani, M., Kuse, M., Takikawa, H. and Sugimoto, Y. 2016. Identification of (Z)-3:(E)-2-hexenal isomerases essential to the production of the leaf aldehyde in plants. Journal of Biological Chemistry, 291(27): 14023-14033.10.1074/jbc.M116.726687 Search in Google Scholar

Lou, Y. and Baldwin, I.T. 2004. Nitrogen supply influences herbivore-induced direct and indirect defenses and transcriptional responses in Nicotiana attenuata. Plant Physiology, 135(1): 496-506.10.1104/pp.104.040360 Search in Google Scholar

Lu, Z.X., Yu, X.P., Heong, K.L., and Cui, H.U. 2007. Effect of nitrogen fertilizer on herbivores and its stimulation to major insect pests in rice. Rice Science, 14(1): 56-66.10.1016/S1672-6308(07)60009-2 Search in Google Scholar

Maleknia, S.D., Vail, T.M., Cody, R.B., Sparkman, D.O., Bell, T.L. and Adams, M.A., 2009. Temperature-dependent release of volatile organic compounds of eucalypts by direct analysis in real time (DART) mass spectrometry. Rapid Communications in Mass Spectrometry: An International Journal Devoted to the Rapid Dissemination of Up-to-the-Minute Research in Mass Spectrometry, 23(15): 2241-2246.10.1002/rcm.413319551840 Search in Google Scholar

McBride, M.F. 2016. Extraction of resins from Capsicum annuum var. longum (Siling haba) for the study of their potential anti-microbial activities. Journal of Chemical and Pharmaceutical Research, 8(3): 117-127. Search in Google Scholar

Molla, T., Abera, G. and Beyene, S. 2019. Effects of Nitrogen Fertilizer and Mulch Application on Growth Performance and Pod Yields of Hot Pepper (Capsicum annuum L.) under Irrigated Condition. International Journal of Plant and Soil Science, 27(5): 1-15.10.9734/ijpss/2019/v27i530089 Search in Google Scholar

Moreau, D., Pivato, B., Bru, D., Busset, H., Deau, F., Faivre, C., Matejicek, A., Strbik, F., Philippot, L. and Mougel, C. 2015. Plant traits related to nitrogen uptake influence plant-microbe competition. Ecology, 96(8): 2300-2310.10.1890/14-1761.126405754 Search in Google Scholar

Perera, R.M., Marriott, P.J., Galbally, I.E. 2002. Head-space solid-phase microextraction—Comprehensive two-dimensional gas chromatography of wound induced plant volatile organic compound emissions. Analyst, 127(12): 1601-1607.10.1039/B208577A12537367 Search in Google Scholar

Redillas, M.C.F.R., Jeong, J.S., Strasser, R.J., Kim, Y.S., and Kim, J.K. 2011. JIP analysis on rice (Oryza sativa cv Nipponbare) grown under limited nitrogen conditions. Journal of the Korean Society for Applied Biological Chemistry, 54(5): 827-832.10.1007/BF03253169 Search in Google Scholar

Saad, K.A., Roff, M.M., Hallett, R.H., and Idris, A.B. 2015. Aphid-induced defences in chilli affect preferences of the whitefly, Bemisia tabaci (Hemiptera: Aleyrodidae). Scientific Reports, 5(1): 1-9.10.1038/srep13697455857926334135 Search in Google Scholar

Salas, R.A., Gonzaga, Z.C., Wu, D.L., Luther, G., Gniffke, P.A., and Palada, M.C. 2015. Effects of physical barrier and insect growth regulator on whitefly control and yield of chili pepper (Capsicum annuum L.). Journal of Food and Nutrition Sciences, 3(1-2): 13-19. Search in Google Scholar

Salerno, G., Frati, F., Marino, G., Ederli, L., Pasqualini, S., Loreto, F., Colazza, S. and Centritto, M. 2017. Effects of water stress on emission of volatile organic compounds by Vicia faba, and consequences for attraction of the egg parasitoid Trissolcus basalis. Journal of Pest Science, 90(2): 635-647.10.1007/s10340-016-0830-z Search in Google Scholar

Samburova, V., McDaniel, M., Campbell, D., Wolf, M., Stockwell, W.R. and Khlystov, A. 2019. Dominant volatile organic compounds (VOCs) measured at four Cannabis growing facilities: pilot study results. Journal of the Air and Waste Management Association, 69(11): 1267-1276.10.1080/10962247.2019.165403831498732 Search in Google Scholar

Sharma, R. and Kumar, R. 2017. Growth, flowering and yield of chilli,(Capsicum annuum L.) as influenced by spacing and growing conditions. Indian Journal of Pure and Applied Biosciences, 5(5): 524-527.10.18782/2320-7051.5858 Search in Google Scholar

Silva, É.A.S., Saboia, G., Jorge, N.C., Hoffmann, C., dos Santos Isaias, R.M., Soares, G.L. and Zini, C.A. 2017. Development of a HS-SPME-GC/MS protocol assisted by chemometric tools to study herbivore-induced volatiles in Myrcia splendens. Talanta, 175: 9-20.10.1016/j.talanta.2017.06.06328842040 Search in Google Scholar

Silva, L.R., Azevedo, J., Pereira, M.J., Valentão, P. and Andrade, P.B. 2013. Chemical assessment and antioxidant capacity of pepper (Capsicum annuum L.) seeds. Food and Chemical Toxicology, 53: 240-248. Search in Google Scholar

Smart, L.E., and Blight, M.M. 1997. Field discrimination of oilseed rape, Brassica napus volatiles by cabbage seed weevil, Ceutorhynchus assimilis. Journal of Chemical Ecology, 23(11): 2555-2567.10.1023/B:JOEC.0000006666.77111.ab Search in Google Scholar

Spinelli, F., Cellini, A., Marchetti, L., Nagesh, K.M. and Piovence, C. 2011. Emission and Function of Volatile Organic Compounds in Response to Abiotic Stress. Department of Fruit Tree and Woody Plant Sciences, 16: 367-393. Search in Google Scholar

Tálaga-Taquinas, W., Melo-Cerón, C. I., Lagos-Álvarez, Y. B., Duque-Gamboa, D. N., Toro-Perea, N. and Manzano, M. R. 2020. Identification and life history of aphids associated with chili pepper crops in southwestern Colombia. Universitas Scientiarum, 25(2): 175-200.10.11144/Javeriana.SC25-2.ialh Search in Google Scholar

Tavera, M.A.A., Lago, J.C.A., Magalong, V.K.D., Vida-mo, G.A.V., Carandang, J.S.R., Amalin, D.M., Janairo, J.I.B. 2018. Effect of Aspidiotus rigidus infestation on the volatile chemical profile of the host plant Garcinia mangostana. Hellenic Plant Protection Journal, 11(1): 1-8.10.2478/hppj-2018-0001 Search in Google Scholar

Teuber, M., Zimmer, I., Kreuzwieser, J., Ache, P., Polle, A., Rennenberg, H. and Schnitzler, J.P. 2008. VOC emissions of Grey poplar leaves as affected by salt stress and different N sources. Plant Biology, 10(1): 86-96.10.1111/j.1438-8677.2007.00015.x18211549 Search in Google Scholar

Tewari, S., Leskey, T.C., Nielsen, A.L., Piñero, J.C., and Rodriguez-Saona, C.R. 2014. Use of pheromones in insect pest management, with special attention to weevil pheromones. In Integrated Pest Management (pp. 141-168). Academic Press.10.1016/B978-0-12-398529-3.00010-5 Search in Google Scholar

Veromann, E., Toome, M., Kännaste, A., Kaasik, R., Copolovici, L., Flink, J., Kovács, G., Narits, L., Luik, A. and Niinemets, Ü. 2013. Effects of nitrogen fertilization on insect pests, their parasitoids, plant diseases and volatile organic compounds in Brassica napus. Crop Protection. 43: 79-88. Search in Google Scholar

Vicedo, B., Flors, V., de la O Leyva, M., Finiti, I., Kravchuk, Z., Real, M.D., García-Agustín, P. and González-Bosch, C. 2009. Hexanoic acid-induced resistance against Botrytis cinerea in tomato plants. Molecular Plant-Microbe Interactions, 22(11):1455-1465.10.1094/MPMI-22-11-145519810814 Search in Google Scholar

Vuorinen, T., Nerg, A.M., Holopainen, J.K. 2004. Ozone exposure triggers the emission of herbivore-induced plant volatiles, but does not disturb tritrophic signalling. Environmental Pollution, 131(2): 305-311.10.1016/j.envpol.2004.02.02715234097 Search in Google Scholar

Wahocho, N.A., Zeshan Ahmed, S., Jogi, Q., Talpur, K.H. and Leghari, S.J. 2016. Growth and productivity of chilli (Capsicum annuum l.) under various nitrogen levels. Science International, 28(2): 1321-1326. Search in Google Scholar

Walsh, B.M. and Hoot, S.B. 2001. Phylogenetic Relationships of Capsicum (Solanaceae) Using DNA Sequences from Two Noncoding Regions: The Chloroplast atpB-rbcL Spacer Region and Nuclear waxy Introns. International Journal of Plant Sciences, 162(6): 1409–1418.10.1086/323273 Search in Google Scholar

Xin, Z., Li, X., Li, J., Chen, Z. and Sun, X. 2016 Application of chemical elicitor (Z)-3-hexenol enhances direct and indirect plant defenses against tea geometrid Ectropis obliqua. BioControl, 61(1): 1-12. Search in Google Scholar

Zhigila, D.A., Abdul Rahaman, A.A., Kolawole, O.S. and Oladele, F. 2014. Fruit Morphology as Taxonomic Features in Five Varieties of Capsicum annuum L. Solanaceae, Journal of Botany, v. 2014, Article ID 540868. Search in Google Scholar

Ziino, M., Condurso, C., Romeo, V., Tripodi, G. and Verzera, A. 2009. Volatile compounds and capsaicinoid content of fresh hot peppers (Capsicum annuum L.) of different Calabrian varieties. Journal of the Science of Food and Agriculture, 89(5): 774-780.10.1002/jsfa.3511 Search in Google Scholar