Australian New Crops Info 2016
Supported by the Rural Industries Research and Development Corporation

Listing of Interesting Plants of the World:

Nicotiana trigonophylla

 

 

This species is usually known as:

Nicotiana trigonophylla, Nicotiana trigonophylla var. ipomopsiflora

 

This species has no synonyms in The Plant List

 

Common names:

Desert Tobacco

 

 

Trends (five databases) 1901-2013:
[Number of papers mentioning Nicotiana trigonophylla: 31]

 

 

Popularity of Nicotiana trigonophylla over time
[Left-hand Plot: Plot of numbers of papers mentioning Nicotiana trigonophylla (histogram and left hand axis scale of left-hand plot) and line of best fit, 1901 to 2013 (equation and % variation accounted for in box); Right-hand Plot: Plot of a proportional micro index, derived from numbers of papers mentioning Nicotiana trigonophylla as a proportion (scaled by multiplying by one million) of the approximate total number of papers available in databases for that year (frequency polygon and left-hand axis scale of right-hand plot) and line of best fit, 1901 to 2013 (equation and % variation accounted for in box)] 

[For larger charts showing the numbers of papers that have mentioned this species over years, select this link; there are links to come back from there]

 

Keywords

[Total number of keywords included in the papers that mentioned this species: 66]

 

growth (2), Nicotiana (2), nicotiana repanda (2), Nicotiana rustica (2), Nicotiana tabacum (2), nicotiana trigonophylla (2), pollen tubes (2), 17-Hydroxygeranyllinalool-diterpene-glycosides (1), adaptation (1), allopolyploidy (1), Apple (1), biomass (1), chemical constituents of plants (1), Chromocenter (1), Chromosomes (1), C-value paradox (1), dark (1), developmental stages (1), DNA amount (1), efficiency (1), energy (1), ethylene (1), ethylene production (1), Euchromatin (1), fertilization (reproduction) (1), flowers (1), fuels (1), Genome evolution (1), Geranylgeranyl diphosphate synthase (1), gynoecium (1), herbaceous plants (1), Heterochromatin (1), High-temperature (1), homoploid hybrid (1), Hybrid lethality (1), hybridization (1), inhibition (1), Intergeneric hybridization (1), interspecific hybridization (1), Japanese pear (1), Manduca sexta (1), Nicotiana attenuata (1), Nicotiana obtusifolia (1), ovules (1), parental divergence (1), Petunia hybrida (1), plant anatomy (1), plant morphology (1), pollen germination (1), pollination (1), polyploidy (1), self compatibility (1), self incompatibility (1), solvent extraction (1), speciation (1), stigma (1), styles (1), ultrastructure (1), Virus-induced-gene silencing (1)

 

[If all keywords are not here (as indicated by .....), they can be accessed from this link; there are links to come back from there]

 

 

Most likely scope for crop use/product (%):
[Please note: When there are only a few papers mentioning a species, care should be taken with the interpretation of these crop use/product results; as well, a mention may relate to the use of a species, or the context in which it grows, rather than a product]

 

food for humans (61.90), forage (29.79), timber (4.86), fruit (0.38), poison (0.38), ornamental (0.24), grain legume (0.23), starch (0.17), cereal (0.12), nutraceutical (0.12)…..

 

[To see the full list of crop use/product outcomes, from searching abstracts of the papers that have mentioned this species, select this link; details of the analysis process have also been included; there are links to come back from there]

 

 

Recent mentions of this species in the literature:
[since 2012, with links to abstracts; The references from 1901-2013 which have been used for the trend, keyword and crop use/product analyses below, are listed below these references]

 

Kroumova ABM, Zaitlin D and Wagner GJ (2016) Natural variability in acyl moieties of sugar esters produced by certain tobacco and other Solanaceae species. Phytochemistry 130, 218-227. //www.sciencedirect.com/science/article/pii/S0031942216301108

Eberle CA, Anderson NO, Clasen BM, Hegeman AD and Smith AG (2013) PELPIII: the class III pistil-specific extensin-like Nicotiana tabacum proteins are essential for interspecific incompatibility. The Plant Journal 74, 805-814. http://dx.doi.org/10.1111/tpj.12163

Burrows GE and Tyrl RJ (2012) Solanaceae Juss. In ‘Toxic Plants of North America’ (Ed.^(Eds  pp. 1130-1176. (Wiley-Blackwell). http://dx.doi.org/10.1002/9781118413425.ch69

 

 

References 1901-2013 (and links to abstracts):
[Number of papers mentioning Nicotiana trigonophylla: 31; Any undated papers have been included at the end]

 

Lozitsky V, Fedchuk A, Grydina T, Mudryk L, Shitikova L and Socheslo L (2011) Virucidal Activity of Calluses’ Extracts from Tobacco-Plants. Antiviral Research 90, A57-A58.  http://www.sciencedirect.com/science/article/pii/S0166354211001628

Rowley-Conwy P and Layton R (2011) Foraging and farming as niche construction: stable and unstable adaptations. Phil Trans R Soc B 366, 849-862.  http://rstb.royalsocietypublishing.org/cgi/content/abstract/366/1566/849

Jassbi A, Zamanizadehnajari S and Baldwin I (2010) 17-Hydroxygeranyllinalool glycosides are major resistance traits of Nicotiana obtusifolia against attack from tobacco hornworm larvae. Phytochemistry 71, 1115-21.

Jassbi AR, Zamanizadehnajari S and Baldwin IT (2010) 17-Hydroxygeranyllinalool glycosides are major resistance traits of Nicotiana obtusifolia against attack from tobacco hornworm larvae. Phytochemistry 71, 1115-1121.  http://www.sciencedirect.com/science/article/pii/S003194221000138X

Tezuka T, Kuboyama T, Matsuda T and Marubashi W (2010) Seven of eight species in Nicotiana section Suaveolentes have common factors leading to hybrid lethality in crosses with Nicotiana tabacum. Ann. Bot. 106, 267-276.  http://aob.oxfordjournals.org/cgi/content/abstract/106/2/267

Anssour S, Krugel T, Sharbel TF, Saluz HP, Bonaventure G and Baldwin IT (2009) Phenotypic, genetic and genomic consequences of natural and synthetic polyploidization of Nicotiana attenuata and Nicotiana obtusifolia. Ann. Bot. 103, 1207-1217.  http://aob.oxfordjournals.org/cgi/content/abstract/103/8/1207

Brent F (2009) CHAPTER 47 - Neurotoxic Plants. In ‘Clinical Neurotoxicology’ (Ed.^(Eds Michael RD and Mda2 - Michael R. Dobbs MD) pp. 523-542. (W.B. Saunders: Philadelphia). http://www.sciencedirect.com/science/article/pii/B9780323052603500538

Furbee B, Michael RD and Mda2 - Michael R. Dobbs MD (2009) CHAPTER 47 - Neurotoxic Plants. In ‘Clinical Neurotoxicology’ (Ed.^(Eds  pp. 523-542. (W.B. Saunders: Philadelphia). http://www.sciencedirect.com/science/article/pii/B9780323052603500538

Paun O, Forest F, Fay MF and Chase MW (2009) Hybrid speciation in angiosperms: parental divergence drives ploidy. New Phytologist 182, 507-518.  http://dx.doi.org/10.1111/j.1469-8137.2009.02767.x

Larson JL and Clark RF (2006) Chapter 10 - Plant Toxins in the Tropics. In ‘Tropical Infectious Diseases (Second Edition)’ (Ed.^(Eds Richard LG, Md, et al.) pp. 102-119. (Churchill Livingstone: Philadelphia). http://www.sciencedirect.com/science/article/pii/B9780443066689500156

Qu N, Schittko U and Baldwin IT (2004) Consistency of Nicotiana attenuata’s Herbivore- and Jasmonate-Induced Transcriptional Responses in the Allotetraploid Species Nicotiana quadrivalvis and Nicotiana clevelandii. Plant Physiology 135, 539-548.  http://www.plantphysiol.org/cgi/content/abstract/135/1/539

Inoue E, Sakuma F, Kasumi M, Hara H and Tsukihashi T (2003) Effect of high-temperature on suppression of the lethality exhibited in the intergeneric hybrid between Japanese pear (Pyrus pyrifolia Nakai) and apple (Malus×domestica Borkh.). Scientia Horticulturae 98, 385-396.  http://www.sciencedirect.com/science/article/pii/S0304423803000402

Martinis Dd, Cotti G, Lintel Hekker St, Harren FJM and Mariani C (2002) Ethylene response to pollen tube growth in Nicotiana tabacum flowers. Planta. 214, 806-812.

Valery G G (2000) Some aspects of plant karyology and karyosystematics. In ‘International Review of Cytology’ (Ed.^(Eds Kwang WJ) pp. 131-175. (Academic Press). http://www.sciencedirect.com/science/article/pii/S0074769600960042

(1999) Index. In ‘Analytical Determination of Nicotine and Related Compounds and their Metabolites’ (Ed.^(Eds John WG and Peyton J, III) pp. 721-758. (Elsevier Science: Amsterdam). http://www.sciencedirect.com/science/article/pii/B9780444500953500188

Baskin CC and Baskin JM (1998) Chapter 9 - A Geographical Perspective on Germination Ecology: Tropical and Subtropical Zones. In ‘Seeds’ (Ed.^(Eds  pp. 239-329. (Academic Press: San Diego). http://www.sciencedirect.com/science/article/pii/B9780120802609500099

Kerstiens G (1996) Plant Cuticles-an Integrated Functional Approach. J. Exp. Bot. 47, 50-60.  http://jxb.oxfordjournals.org

Kuboyama T, Chung CS and Takeda G (1994) The diversity of interspecific pollen-pistil incongruity in Nicotiana. Sexual plant reproduction. 7, 250-258.

Sanecki R, Gupta RC and Kadel WL (1994) Lethal Nicotine Intoxication in a Group of Mules. Journal of Veterinary Diagnostic Investigation 6, 503-504.  http://vdi.sagepub.com

W.Geoffrey S (1991) A middle holocene vegetation record from the Mojave Desert of North America and its paleoclimatic significance. Quaternary Research 35, 427-437.  http://www.sciencedirect.com/science/article/pii/003358949190055A

W.Geoffrey S (1990) Vegetation dynamics during the last deglaciation, southeastern Great Basin, U.S.A. Quaternary Research 33, 188-203.  http://www.sciencedirect.com/science/article/pii/003358949090018G

Thomas R VD (1987) Holocene vegetation and climate in the Puerto Blanco Mountains, southwestern Arizona. Quaternary Research 27, 51-72.  http://www.sciencedirect.com/science/article/pii/0033589487900494

Adams RP, Balandrin MF, Brown KJ, Stone GA, Gruel SM and Bagby MO (1986) Extraction of liquid fuels and chemicals from terrestrial higher plants. Part I. Yields from a survey of 614 Western United States plant taxa. Biomass 9, 255-292.  http://www.sciencedirect.com/science/article/pii/014445658690079X

W.Geoffrey S (1983) Late Wisconsin macrofossil records of desert vegetation in the American Southwest. Quaternary Research 19, 256-264.  http://www.sciencedirect.com/science/article/pii/0033589483900091

Gary Paul N (1979) The ecology of floodwater farming in arid southwestern North America. Agro-Ecosystems 5, 245-255.  http://www.sciencedirect.com/science/article/pii/0304374679900040

Robert A B, Jr. (1979) Hallucinogenic plants of the Tarahumara. Journal of Ethnopharmacology 1, 23-48.  http://www.sciencedirect.com/science/article/pii/0378874179900151

(1965) Subject Index. In ‘The Alkaloids: Chemistry and Physiology’ (Ed.^(Eds Manske RHF) pp. 435-442. (Academic Press). http://www.sciencedirect.com/science/article/pii/S1876081308601803

Schwartz S, Ikeda K, Miller IM and Watson CJ (1959) Utilization of Porphobilinogen Carbon-14 in Biosynthesis of Vitamin B12. Science 129, 40-41.  http://www.sciencemag.org

Wells PV (1959) Ecological Significance of Red Light Sensitivity in Germination of Tobacco Seed. Science 129, 41-42.  http://www.sciencemag.org/cgi/content/abstract/129/3340/41

John M K (1958) Plants Poisonous to Livestock. A Review. Journal of Dairy Science 41, 875-907.  http://www.sciencedirect.com/science/article/pii/S0022030258910208

McCray FA (1932) COMPATIBILITY OF CERTAIN NICOTIANA SPECIES. Genetics 17, 621-636.  http://www.genetics.org

Jassbi AR, Zamanizadehnajari S and Baldwin IT 17-Hydroxygeranyllinalool glycosides are major resistance traits of Nicotiana obtusifolia against attack from tobacco hornworm larvae. Phytochemistry 71, 1115-21.

Lozitsky V, Fedchuk A, Grydina T, Mudryk L, Shitikova L and Socheslo L Virucidal Activity of Calluses’ Extracts from Tobacco-Plants. Antiviral Research 90, A57-A58.  http://www.sciencedirect.com/science/article/pii/S0166354211001628

Rowley-Conwy P and Layton R Foraging and farming as niche construction: stable and unstable adaptations. Phil Trans R Soc B 366, 849-862.  http://rstb.royalsocietypublishing.org/cgi/content/abstract/366/1566/849

Tezuka T, Kuboyama T, Matsuda T and Marubashi W Seven of eight species in Nicotiana section Suaveolentes have common factors leading to hybrid lethality in crosses with Nicotiana tabacum. Ann. Bot. 106, 267-276.  http://aob.oxfordjournals.org/cgi/content/abstract/106/2/267

 


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Grateful acknowledgment is made to the following: for plant names: Australian Plant Name Index, Australian National Herbarium http://www.anbg.gov.au/cpbr/databases/apni-search-full.html; ; The International Plant Names Index, Royal Botanic Gardens, Kew/Harvard University Herbaria/Australian National Herbarium http://www.ipni.org/index.html; Plants Database, United States Department of Agriculture, National Resources Conservation Service http://plants.usda.gov/;DJ Mabberley (1997) The Plant Book, Cambridge University Press (Second Edition); JH Wiersma and B Leon (1999) World Economic Plants, CRC Press; RJ Hnatiuk (1990) Census of Australian Vascular Plants, Australian Government Publishing Service; for information: Science Direct http://www.sciencedirect.com/; Wiley Online Library http://onlinelibrary.wiley.com/advanced/search; High Wire http://highwire.stanford.edu/cgi/search; Oxford Journals http://services.oxfordjournals.org/search.dtl; USDA National Agricultural Library http://agricola.nal.usda.gov/booleancube/booleancube_search_cit.html; for synonyms: The Plant List http://www.theplantlist.org/; for common names: http://en.wikipedia.org/wiki/Main_Page; etc.


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Latest update March 2017 by: ANCW