Zea diploperennis: Difference between revisions
Brooke8700 (talk | contribs) m I added that genes being resistant to Stringa can have increased grain yield. |
User:Brooke8700's WP:PRIMARYs + WP:SECONDARY demonstrating good sources. Brooke8700 I suggest using bundle if you cite these again. (Predatory publisher added. See <!---> for justifying citations.) Tag: use of predatory open access journal |
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'''''Zea diploperennis''''', the '''diploperennial teosinte''',<ref>{{PLANTS|id=ZEDI|taxon=Zea diploperennis|access-date=9 August 2015}}</ref> is a species of grass (family: Poaceae) in the genus ''[[Zea (plant)|Zea]]'' and a teosinte (wild relative of maize or corn). It is [[perennial]]. Virtually all populations of this teosinte are either threatened or endangered: ''Z. diploperennis'' exists in an area of only a few square miles. The Mexican and Nicaraguan governments have taken action in recent years to protect wild teosinte populations, using both ''in situ'' and ''ex situ'' conservation methods. Currently, a large amount of scientific interest exists in conferring beneficial teosinte traits, such as insect resistance, perennialism, and flood tolerance, to cultivated [[maize]] lines, although this is very difficult due to linked deleterious teosinte traits. Researchers |
'''''Zea diploperennis''''', the '''diploperennial teosinte''',<ref>{{PLANTS|id=ZEDI|taxon=Zea diploperennis|access-date=9 August 2015}}</ref> is a species of grass (family: Poaceae) in the genus ''[[Zea (plant)|Zea]]'' and a teosinte (wild relative of maize or corn). It is [[perennial]]. Virtually all populations of this teosinte are either threatened or endangered: ''Z. diploperennis'' exists in an area of only a few square miles. The Mexican and Nicaraguan governments have taken action in recent years to protect wild teosinte populations, using both ''in situ'' and ''ex situ'' conservation methods. Currently, a large amount of scientific interest exists in conferring beneficial teosinte traits, such as insect resistance, perennialism, and flood tolerance, to cultivated [[maize]] lines, although this is very difficult due to linked deleterious teosinte traits. Researchers including Akaogu ''et al.'' 2019<ref name="Akaogu-et-al-2019-bundle"> |
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|{{cite journal | issue=4 | date=2021-02-05 | volume=185 | last1=Jamil | first1=Muhammad | last2=Kountche | first2=Boubacar A | last3=Al-Babili | first3=Salim | title=Current progress in Striga management | publisher=[[American Society of Plant Biologists]] ([[Oxford University Press|OUP]]) | journal=[[Plant Physiology (journal)|Plant Physiology]] | issn=0032-0889 | doi=10.1093/plphys/kiab040 | pages=1339–1352 | s2cid=232762845}} |
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|{{cite journal | issue=2 | volume=140 | year=2021 | publisher=[[Wiley Publishing|Wiley]] | journal=[[Plant Breeding (journal)|Plant Breeding]] | issn=0179-9541 | last1=Yacoubou | first1=Abdoul‐Madjidou | last2=Zoumarou Wallis | first2=Nouhoun | last3=Menkir | first3=Abebe | last4=Zinsou | first4=Valerien A. | last5=Onzo | first5=Alexis | last6=Garcia‐Oliveira | first6=Ana Luísa | last7=Meseka | first7=Silvestro | last8=Wende | first8=Mengesha | last9=Gedil | first9=Melaku | last10=Agre | first10=Paterne | title=Breeding maize (''Zea mays'') for Striga resistance: Past, current and prospects in sub‐saharan africa | doi=10.1111/pbr.12896 | pages=195–210 | s2cid=233774262 | pmid=34239217 | pmc=8248382}} |
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|{{cite journal | issue=5 | date=2019-04-16 | publisher=[[Wiley Publishing|Wiley]] | volume=138 | journal=[[Plant Breeding (journal)|Plant Breeding]] | issn=0179-9541 | last1=Akaogu | first1=Ijeoma C. | last2=Badu‐Apraku | first2=Baffour | last3=Tongoona | first3=Pangirayi | last4=Ceballos | first4=Hernan | last5=Gracen | first5=Vernon | last6=Offei | first6=S. K. | last7=Dzidzienyo | first7=Daniel | title=Inheritance of ''Striga hermonthica'' adaptive traits in an early‐maturing white maize inbred line containing resistance genes from ''Zea diploperennis'' | doi=10.1111/pbr.12707 | pages=546–552 | s2cid=145851144}} |
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</ref> and Yallou ''et al.'' 2009<ref name="Yallou-et-al-2009-bundle"> |
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|{{cite journal | publisher=[[MedCrave Group]] | volume=4 | issue=1 | date=2016-06-30 | journal=[[Biometrics & Biostatistics International Journal]] | issn=2378-315X | last1=Fasahat | first1=Parviz | first2=Abazar | last2=Rajabi | first3=Javad Mohseni | last3=Rad | first4=John | last4=Derera | title=Principles and Utilization of Combining Ability in Plant Breeding | doi=10.15406/bbij.2016.04.00085 | s2cid=35109875}}<!--- Unusual journal and publisher but extensively cited. Citations include Onofri et al. 2020, Wan Shafiin et al. 2020 and Portis et al. 2019. ---> |
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|{{cite journal | last4=Parliament | volume=9 | date=2018-06-28 | publisher=[[Frontiers Media|Frontiers]] | journal=[[Frontiers in Plant Science]] | issn=1664-462X | last1=Mammadov | first1=Jafar | last2=Buyyarapu | first2=Ramesh | last3=Guttikonda | first3=Satish K. | first4=Kelly | last5=Abdurakhmonov | first5=Ibrokhim Y. | last6=Kumpatla | first6=Siva P. | title=Wild Relatives of Maize, Rice, Cotton, and Soybean: Treasure Troves for Tolerance to Biotic and Abiotic Stresses | doi=10.3389/fpls.2018.00886 | s2cid=49480613 | pmid=30002665 | pmc=6032925}} |
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|{{cite journal | year=2009 | issue=2 | volume=128 | publisher=[[Blackwell Publishing|Blackwell]] | journal=[[Plant Breeding (journal)|Plant Breeding]] | issn=0179-9541 | last1=Yallou | first1=C. G. | last2=Menkir | first2=A. | last3=Adetimirin | first3=V. O. | last4=Kling | first4=J. G. | title=Combining ability of maize inbred lines containing genes from ''Zea diploperennis'' for resistance to ''Striga hermonthica'' (Del.) Benth | doi=10.1111/j.1439-0523.2008.01583.x | pages=143–148 | s2cid=84771595}} |
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</ref> are studying ''Z. diploperennis'' as its [[crop disease resistance gene|genes provide resistance]] against ''[[Striga]]'', which can decrease grain yield. |
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== References == |
== References == |
Revision as of 20:06, 14 July 2022
Zea diploperennis | |
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![]() | |
Zea diploperennis, Conservatoire botanique national de Brest, France, June 2007 | |
Scientific classification ![]() | |
Kingdom: | Plantae |
Clade: | Tracheophytes |
Clade: | Angiosperms |
Clade: | Monocots |
Clade: | Commelinids |
Order: | Poales |
Family: | Poaceae |
Subfamily: | Panicoideae |
Genus: | Zea |
Species: | Z. diploperennis
|
Binomial name | |
Zea diploperennis |
Zea diploperennis, the diploperennial teosinte,[1] is a species of grass (family: Poaceae) in the genus Zea and a teosinte (wild relative of maize or corn). It is perennial. Virtually all populations of this teosinte are either threatened or endangered: Z. diploperennis exists in an area of only a few square miles. The Mexican and Nicaraguan governments have taken action in recent years to protect wild teosinte populations, using both in situ and ex situ conservation methods. Currently, a large amount of scientific interest exists in conferring beneficial teosinte traits, such as insect resistance, perennialism, and flood tolerance, to cultivated maize lines, although this is very difficult due to linked deleterious teosinte traits. Researchers including Akaogu et al. 2019[2] and Yallou et al. 2009[3] are studying Z. diploperennis as its genes provide resistance against Striga, which can decrease grain yield.
References
- ^ USDA, NRCS (n.d.). "Zea diploperennis". The PLANTS Database (plants.usda.gov). Greensboro, North Carolina: National Plant Data Team. Retrieved 9 August 2015.
- ^
- Jamil, Muhammad; Kountche, Boubacar A; Al-Babili, Salim (2021-02-05). "Current progress in Striga management". Plant Physiology. 185 (4). American Society of Plant Biologists (OUP): 1339–1352. doi:10.1093/plphys/kiab040. ISSN 0032-0889. S2CID 232762845.
- Yacoubou, Abdoul‐Madjidou; Zoumarou Wallis, Nouhoun; Menkir, Abebe; Zinsou, Valerien A.; Onzo, Alexis; Garcia‐Oliveira, Ana Luísa; Meseka, Silvestro; Wende, Mengesha; Gedil, Melaku; Agre, Paterne (2021). "Breeding maize (Zea mays) for Striga resistance: Past, current and prospects in sub‐saharan africa". Plant Breeding. 140 (2). Wiley: 195–210. doi:10.1111/pbr.12896. ISSN 0179-9541. PMC 8248382. PMID 34239217. S2CID 233774262.
- Akaogu, Ijeoma C.; Badu‐Apraku, Baffour; Tongoona, Pangirayi; Ceballos, Hernan; Gracen, Vernon; Offei, S. K.; Dzidzienyo, Daniel (2019-04-16). "Inheritance of Striga hermonthica adaptive traits in an early‐maturing white maize inbred line containing resistance genes from Zea diploperennis". Plant Breeding. 138 (5). Wiley: 546–552. doi:10.1111/pbr.12707. ISSN 0179-9541. S2CID 145851144.
- ^
- Fasahat, Parviz; Rajabi, Abazar; Rad, Javad Mohseni; Derera, John (2016-06-30). "Principles and Utilization of Combining Ability in Plant Breeding". Biometrics & Biostatistics International Journal. 4 (1). MedCrave Group. doi:10.15406/bbij.2016.04.00085. ISSN 2378-315X. S2CID 35109875.
- Mammadov, Jafar; Buyyarapu, Ramesh; Guttikonda, Satish K.; Parliament, Kelly; Abdurakhmonov, Ibrokhim Y.; Kumpatla, Siva P. (2018-06-28). "Wild Relatives of Maize, Rice, Cotton, and Soybean: Treasure Troves for Tolerance to Biotic and Abiotic Stresses". Frontiers in Plant Science. 9. Frontiers. doi:10.3389/fpls.2018.00886. ISSN 1664-462X. PMC 6032925. PMID 30002665. S2CID 49480613.
{{cite journal}}
: CS1 maint: unflagged free DOI (link) - Yallou, C. G.; Menkir, A.; Adetimirin, V. O.; Kling, J. G. (2009). "Combining ability of maize inbred lines containing genes from Zea diploperennis for resistance to Striga hermonthica (Del.) Benth". Plant Breeding. 128 (2). Blackwell: 143–148. doi:10.1111/j.1439-0523.2008.01583.x. ISSN 0179-9541. S2CID 84771595.
External links
![](http://upload.wikimedia.org/wikipedia/commons/thumb/d/df/Wikispecies-logo.svg/34px-Wikispecies-logo.svg.png)
![](http://upload.wikimedia.org/wikipedia/en/thumb/4/4a/Commons-logo.svg/30px-Commons-logo.svg.png)