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

Listing of Interesting Plants of the World:

Neurachne minor

 

 

This species is usually known as:

Neurachne minor

 

This species has no synonyms in The Plant List

 

No common names have been found

 

 

Trends (five databases) 1901-2013:
[Number of papers mentioning Neurachne minor: 21]

 

 

Popularity of Neurachne minor over time
[Left-hand Plot: Plot of numbers of papers mentioning Neurachne minor (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 Neurachne minor 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: 61]

 

14CO2 (1), carbon (4), photosynthesis (4), biochemical pathways (3), enzyme activity (2), Flaveria (2), Moricandia arvensis (2), neurachne minor (2), photorespiration (2), Poaceae (2), C3-C4 (1), C4 photosynthesis (1), calmodulin antagonists (1), carbon dioxide (1), cell walls (1), complex trait (1), co-option (1), enzyme inhibitors (1), evolutionary transitions (1), evolvability (1), flaveria brownii (1), flaveria linearis (1), Flaveria pringlei (1), Flaveria trinervia (1), gas exchange (1), inhibition (1), intermediate (1), leaves (1), modification (1), Neurachne (1), oxygen (1), Panicum (1), Panicum hians (1), Panicum maximum (1), panicum millioides (1), phosphoenolpyruvate carboxylase (1), photosynthetic enzymes (1), plant physiology (1), plant vascular system (1), plants (1), precondition (1), respiration (1), ribulose-bisphosphate carboxylase (1), Rumex dentatus (1), Sorghum bicolor (1), stable isotopes (1), ultrastructure (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]

 

shade (45.11), sweetener (38.92), breeding (10.29), medicinal (0.69), timber (0.63), fruit (0.50), poison (0.50), weed (0.38), ornamental (0.32), starch (0.23)…..

 

[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]

 

Lundgren MR and Christin P-A (2017) Despite phylogenetic effects, C3-C4 lineages bridge the ecological gap to C4 photosynthesis. J. Exp. Bot. 68, 241-254. http://jxb.oxfordjournals.org/cgi/content/abstract/68/2/241

Khoshravesh R, Stinson CR, Stata M, Busch FA, Sage RF, Ludwig M and Sage TL (2016) C3-C4 intermediacy in grasses: organelle enrichment and distribution, glycine decarboxylase expression, and the rise of C2 photosynthesis. J. Exp. Bot. 67, 3065-3078. http://jxb.oxfordjournals.org/cgi/content/abstract/67/10/3065

Miyake H (2016) Starch Accumulation in the Bundle Sheaths of C3 Plants: A Possible Pre-Condition for C4 Photosynthesis. Plant Cell Physiol. 57, 890-896. http://pcp.oxfordjournals.org/cgi/content/abstract/57/5/890

Sage RF and Sultmanis S (2016) Why are there no C4 forests? Journal of Plant Physiology 203, 55-68. //www.sciencedirect.com/science/article/pii/S0176161716301079

Schlu, #x, ter U and Weber APM (2016) The Road to C4 Photosynthesis: Evolution of a Complex Trait via Intermediary States. Plant Cell Physiol. 57, 881-889. http://pcp.oxfordjournals.org/cgi/content/abstract/57/5/881

Sage RF and Stata M (2015) Photosynthetic diversity meets biodiversity: The C4 plant example. Journal of Plant Physiology 172, 104-119. //www.sciencedirect.com/science/article/pii/S0176161714002363

Hancock L and Edwards EJ (2014) Phylogeny and the inference of evolutionary trajectories. J. Exp. Bot. 65, 3491-3498. http://jxb.oxfordjournals.org/cgi/content/abstract/65/13/3491

Sage RF, Khoshravesh R and Sage TL (2014) From proto-Kranz to C4 Kranz: building the bridge to C4 photosynthesis. J. Exp. Bot. 65, 3341-3356. http://jxb.oxfordjournals.org/cgi/content/abstract/65/13/3341

Christin P-A, Wallace MJ, Clayton H, Edwards EJ, Furbank RT, Hattersley PW, Sage RF, Macfarlane TD and Ludwig M (2012) Multiple photosynthetic transitions, polyploidy, and lateral gene transfer in the grass subtribe Neurachninae. J. Exp. Bot. 63, 6297-6308. http://jxb.oxfordjournals.org/cgi/content/abstract/63/17/6297

 

 

References 1901-2013 (and links to abstracts):
[Number of papers mentioning Neurachne minor: 21; Any undated papers have been included at the end]

 

Christin P-A, Wallace MJ, Clayton H, Edwards EJ, Furbank RT, Hattersley PW, Sage RF, Macfarlane TD and Ludwig M (2012) Multiple photosynthetic transitions, polyploidy, and lateral gene transfer in the grass subtribe Neurachninae. J. Exp. Bot. 63, 6297-6308.  http://jxb.oxfordjournals.org/cgi/content/abstract/63/17/6297

Christin P-A, Sage TL, Edwards EJ, Ogburn RM, Khoshravesh R and Sage RF (2011) COMPLEX EVOLUTIONARY TRANSITIONS AND THE SIGNIFICANCE OF C3–C4 INTERMEDIATE FORMS OF PHOTOSYNTHESIS IN MOLLUGINACEAE. Evolution 65, 643-660.  http://dx.doi.org/10.1111/j.1558-5646.2010.01168.x

Sage RF, Christin P-A and Edwards EJ (2011) The C4 plant lineages of planet Earth. J. Exp. Bot. 62, 3155-3169.  http://jxb.oxfordjournals.org/cgi/content/abstract/62/9/3155

Christin P-A, Freckleton RP and Osborne CP (2010) Can phylogenetics identify C4 origins and reversals? Trends in Ecology & Evolution 25, 403-409.  http://www.sciencedirect.com/science/article/pii/S0169534710000856

Aliscioni SS, Giussani LM, Zuloaga FO and Kellogg EA (2003) A molecular phylogeny of Panicum (Poaceae: Paniceae): tests of monophyly and phylogenetic placement within the Panicoideae. Am. J. Botany 90, 796-821.  http://www.amjbot.org/cgi/content/abstract/90/5/796

Giussani LM, Cota-Sanchez JH, Zuloaga FO and Kellogg EA (2001) A molecular phylogeny of the grass subfamily Panicoideae (Poaceae) shows multiple origins of C4 photosynthesis. Am. J. Botany 88, 1993-2012.  http://www.amjbot.org/cgi/content/abstract/88/11/1993

Hamed M E-S (2001) Activators and inhibitors of photosynthetic enzymes from Rumex dentatus cotyledons. Journal of Plant Physiology 158, 1501-1510.  http://www.sciencedirect.com/science/article/pii/S0176161704701868

Russell K M (1999) 11 - The Origins of C4 Genes and Evolutionary Pattern in the C4 Metabolic Phenotype. In ‘C4 Plant Biology’ (Ed.^(Eds Rowan FS and Russell KM) pp. 377-410. (Academic Press: San Diego). http://www.sciencedirect.com/science/article/pii/B9780126144406500124

Sage RF, Li M and Monson RK (1999) 16 - The Taxonomic Distribution of C4 Photosynthesis. In ‘C4 Plant Biology’ (Ed.^(Eds Rowan FS and Russell KM) pp. 551-584. (Academic Press: San Diego). http://www.sciencedirect.com/science/article/pii/B9780126144406500173

Brown RH (1997) Analysis of bundle sheath conductance and C4 photosynthesis using a PEP-carboxylase inhibitor. Australian journal of plant physiology., 4.

Yeo ME, Yeo AR and Flowers TJ (1994) Photosynthesis and photorespiration in the genus Oryza. J. Exp. Bot. 45, 553-560.  http://jxb.oxfordjournals.org/cgi/content/abstract/45/5/553

Brown RH, Byrd GT and Black CC (1991) Assessing the Degree of C4 Photosynthesis in C3-C4 Species Using an Inhibitor of Phosphoenolpyruvate Carboxylase. Plant Physiology 97, 985-989.  http://www.plantphysiol.org/cgi/content/abstract/97/3/985

Brown RH and Hattersley PW (1989) Leaf Anatomy of C3-C4 Species as Related to Evolution of C4 Photosynthesis. Plant Physiology 91, 1543-1550.  http://www.plantphysiol.org/cgi/content/abstract/91/4/1543

Cameron RG, Bassett CL, Bouton JH and Brown RH (1989) Transfer of C4 Photosynthetic Characters through Hybridization of Flaveria Species. Plant Physiology 90, 1538-1545.  http://www.plantphysiol.org/cgi/content/abstract/90/4/1538

Cheng S-H, Moore Bd, Wu J, Edwards GE and Ku MSB (1989) Photosynthetic Plasticity in Flaveria brownii: Growth Irradiance and the Expression of C4 Photosynthesis. Plant Physiology 89, 1129-1135.  http://www.plantphysiol.org/cgi/content/abstract/89/4/1129

Moore Bd and Edwards GE (1989) Metabolism of 14CO2 by leaves of different photosynthetic types of Neurachne species. Plant Science 60, 155-161.  http://www.sciencedirect.com/science/article/pii/0168945289901611

Russell K M (1989) On the Evolutionary Pathways Resulting in C4 Photosynthesis and Crassulacean Acid Metabolism (CAM). In ‘Advances in Ecological Research’ (Ed.^(Eds M. Begon AHFEDF and MacFadyen A) pp. 57-110. (Academic Press). http://www.sciencedirect.com/science/article/pii/S0065250408601579

Hattersley PW and Stone NE (1986) Photosynthetic enzyme activities in the C3-C4 intermediate Neurachne minor S.T. Blake (Poaceae). Australian journal of plant physiology., 3.

Hattersley PW, Wong SC, Perry S and Roksandic Z (1986) Comparative ultrastructure and gas exchange characteristics of the C3-C4 intermediate Neurachne minor S. T. Blake (Poaceae). Plant, cell and environment. 9, 217-233.

Hattersley PW (1984) Characterization of C4 Type Leaf Anatomy in Grasses (Poaceae). Mesophyll: Bundle Sheath Area Ratios. Ann. Bot. 53, 163-180.  http://aob.oxfordjournals.org/cgi/content/abstract/53/2/163

Holaday AS and Chollet R (1984) Photosynthetic photorespiratroy characteristics of C3-C4 intermediate species. Photosynthesis research., 4.

Christin P-A, Freckleton RP and Osborne CP Can phylogenetics identify C4 origins and reversals? Trends in Ecology & Evolution 25, 403-409.  http://www.sciencedirect.com/science/article/pii/S0169534710000856

Sage RF, Christin P-A and Edwards EJ The C4 plant lineages of planet Earth. J. Exp. Bot. 62, 3155-3169.  http://jxb.oxfordjournals.org/cgi/content/abstract/62/9/3155

 


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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