Janjić, Vaskrsija

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  • Janjić, Vaskrsija (4)
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Author's Bibliography

Influence of phytohormone kinetin on progress of phytotoxic process induced by phosphonate herbicide sulphosate

Nikolić, Bogdan; Jovanović, Vladan; Đurović, Sanja; Milićević, Zoran; Janjić, Vaskrsija; Dodig, Dejan

(Herbološko društvo Srbije, 2010)

TY  - JOUR
AU  - Nikolić, Bogdan
AU  - Jovanović, Vladan
AU  - Đurović, Sanja
AU  - Milićević, Zoran
AU  - Janjić, Vaskrsija
AU  - Dodig, Dejan
PY  - 2010
UR  - http://rik.mrizp.rs/handle/123456789/299
AB  - Effects of the herbicide sulphosate on growth, accumulation and distribution of dry weight and photosynthesis were investigated in maize plants grown in field conditions and previosly subjected to influence of kinetine, because of potentially protective role of this phytohormone. This phytohormone not protected maize plants from phytotoxic action of herbicide sulphosate, because of inhibition of growth, accumulation and distribution of dry weight and also photosynthesis, irrespective of kind of pretreatment of plants (with or without kinetine). Also we concluded that Fv/Fm and RFd parameters of Chla fluorescence is good nondestructive indicators of plant physiological status, both in control and sulphosate-treated maize plants.
AB  - U radu se razmatra dejstvo herbicida sulfosata na rastenje, akumulaciju i preraspodelu suve mase, kao i fotosintezu biljaka kukuruza raslih u poljskim uslovima i izloženih predtretmanu fitohormonom kinetinom, radi provere eventualnog protektivnog (prema herbicidu sulfosatu) dejstva pomenutog fitohormona. Nađeno je da fitohormon kinetin ne obezbeđuje biljkama kukuruza zaštitu od dejstva herbicida sulfosata, zato što dolazi do inhibicije rastenja, akumulacije i preraspodele suve mase, kao i fotosinteze biljaka kukuruza, nezavisno od toga da li su biljke prethodno tretirane ili ne fitohormonom kinetinom. Takođe je nađeno da su Fv/Fm i RFd parametri fluorescencije Chla dobri nedestruktivni pokazatelji fiziološkog stanja biljaka, kod kontrolnih i kod sulfosatom tretiranih biljaka kukuruza.
PB  - Herbološko društvo Srbije
T2  - Acta herbologica
T1  - Influence of phytohormone kinetin on progress of phytotoxic process induced by phosphonate herbicide sulphosate
T1  - Uticaj fitohormona kinetina na razvoj fitotoksičnog procesa uzrokovanog fosfonatnim herbicidom sulfosatom
VL  - 19
IS  - 2
SP  - 65
EP  - 69
ER  - 
@article{
author = "Nikolić, Bogdan and Jovanović, Vladan and Đurović, Sanja and Milićević, Zoran and Janjić, Vaskrsija and Dodig, Dejan",
year = "2010",
url = "http://rik.mrizp.rs/handle/123456789/299",
abstract = "Effects of the herbicide sulphosate on growth, accumulation and distribution of dry weight and photosynthesis were investigated in maize plants grown in field conditions and previosly subjected to influence of kinetine, because of potentially protective role of this phytohormone. This phytohormone not protected maize plants from phytotoxic action of herbicide sulphosate, because of inhibition of growth, accumulation and distribution of dry weight and also photosynthesis, irrespective of kind of pretreatment of plants (with or without kinetine). Also we concluded that Fv/Fm and RFd parameters of Chla fluorescence is good nondestructive indicators of plant physiological status, both in control and sulphosate-treated maize plants., U radu se razmatra dejstvo herbicida sulfosata na rastenje, akumulaciju i preraspodelu suve mase, kao i fotosintezu biljaka kukuruza raslih u poljskim uslovima i izloženih predtretmanu fitohormonom kinetinom, radi provere eventualnog protektivnog (prema herbicidu sulfosatu) dejstva pomenutog fitohormona. Nađeno je da fitohormon kinetin ne obezbeđuje biljkama kukuruza zaštitu od dejstva herbicida sulfosata, zato što dolazi do inhibicije rastenja, akumulacije i preraspodele suve mase, kao i fotosinteze biljaka kukuruza, nezavisno od toga da li su biljke prethodno tretirane ili ne fitohormonom kinetinom. Takođe je nađeno da su Fv/Fm i RFd parametri fluorescencije Chla dobri nedestruktivni pokazatelji fiziološkog stanja biljaka, kod kontrolnih i kod sulfosatom tretiranih biljaka kukuruza.",
publisher = "Herbološko društvo Srbije",
journal = "Acta herbologica",
title = "Influence of phytohormone kinetin on progress of phytotoxic process induced by phosphonate herbicide sulphosate, Uticaj fitohormona kinetina na razvoj fitotoksičnog procesa uzrokovanog fosfonatnim herbicidom sulfosatom",
volume = "19",
number = "2",
pages = "65-69"
}
Nikolić, B., Jovanović, V., Đurović, S., Milićević, Z., Janjić, V.,& Dodig, D. (2010). Uticaj fitohormona kinetina na razvoj fitotoksičnog procesa uzrokovanog fosfonatnim herbicidom sulfosatom.
Acta herbologicaHerbološko društvo Srbije., 19(2), 65-69.
Nikolić B, Jovanović V, Đurović S, Milićević Z, Janjić V, Dodig D. Uticaj fitohormona kinetina na razvoj fitotoksičnog procesa uzrokovanog fosfonatnim herbicidom sulfosatom. Acta herbologica. 2010;19(2):65-69
Nikolić Bogdan, Jovanović Vladan, Đurović Sanja, Milićević Zoran, Janjić Vaskrsija, Dodig Dejan, "Uticaj fitohormona kinetina na razvoj fitotoksičnog procesa uzrokovanog fosfonatnim herbicidom sulfosatom" 19, no. 2 (2010):65-69

The influence of annual changes in temperature and light (PAR) on the induction of Chla fluorescence in situ in Stellaria media (L.) and Plantago maior (L.)

Nikolić, Bogdan; Dodig, Dejan; Jovanović, Vladan; Janjić, Vaskrsija; Milićević, Zoran

(Herbološko društvo Srbije, 2008)

TY  - JOUR
AU  - Nikolić, Bogdan
AU  - Dodig, Dejan
AU  - Jovanović, Vladan
AU  - Janjić, Vaskrsija
AU  - Milićević, Zoran
PY  - 2008
UR  - http://rik.mrizp.rs/handle/123456789/225
AB  - Chla fluorescence, as a mode of estimation of photosynthesis, is especially sensitive to changes in temperature and light intensity (PAR). This enables us to study the influence of those ecophysiological parameters on photosynthesis in native plants. In this article, we examined the effect of annual changes in temperature and PAR on the parameters of Chla fluorescence in Stellaria media (L.), a plant species more frequent in colder periods of the year, and Plantago maior (L.), which is more frequent in warmer periods. Lower PAR and temperature slowed down the electron transport in PS2, but lower temperatures reduced the quantum efficacy of PS2 and improved processes in the antennae system and the size of plastoquinone pool of PS2 in Stellaria media (L.). Lower temperatures reduced quantum efficacy and slowed down the electron transport in PS2 in Plantago maior (L.). The facts that PAR (as well as temperature) affects photosynthesis, and that lower temperatures activate processes in the antennae system and those on the acceptor side of PS2 as a 'counterbalance' to the inhibition of quantum efficacy and electron transport in PS2, caused by low temperatures, point at possible explanations of low-temperature resistance of photosynthesis in Stellaria media (L.). On the other hand, low temperatures caused inhibition of quantum efficacy and electron transport in the PS2 of Plantago maior (L.), which caused low-temperature photoinhibition and stepped quenching of all physiological processes in the species. This might be the reason for the different levels of acclimation to low temperatures and different life strategies of the two species living in close vicinity.
AB  - Fluorescencija Chla, kao pokazatelj fotosinteze, posebno je osetljiva na promene temperature i intenziteta svetlosti (PAR). To omogućava praćenje uticaja ovih ekofizioloških parametara na fotosintezu nativnih biljaka. U ovom radu dat je pregled uticaja godišnjih promena temperature i PAR na parametre fluorescencije Chla kod Stellaria media (L.), biljne vrste zastupljenije u hladnijem delu godine i Plantago maior (L.), biljne vrste zastupljenije u toplijem delu godine. Manje vrednosti PAR i temperature usporavaju transport elektrona u PS2, sniženje temperature umanjuje kvantnu efikasnost u PS2 i pozitivno deluje na antenske procese i veličinu pula plastohinona u PS2 kod Stellaria media (L.). Sniženje temperature umanjuje kvantni prinos i usporava transport elektrona u PS2 kod Plantago maior (L.). Činjenica da i PAR (pored temperature) deluje na fotosintezu, kao i da sniženje temperature aktivira antenske i procese na akceptorskoj strani PS2, kao "protivtežu" inhibiciji kvantne efikasnosti i transporta elektrona u PS2, uzrokovanoj niskim temperaturama, ukazuje na moguće uzroke niskotemperaturne otpornosti fotosinteze kod Stellaria media (L.). Nasuprot tome, kod Plantago maior (L.) niska temperatura uzrokuje inhibiciju kvantne efikasnosti i transporta elektrona u PS2, što dovodi do niskotemperaturne fotoinhibicije i postepenog gašenja svih fizioloških procesa kod te vrste. To bi moglo biti objašnjenje različite prilagođenosti na niske temperature i različitih životnih strategija ovih vrsta, koje žive u bliskom susedstvu.
PB  - Herbološko društvo Srbije
T2  - Acta herbologica
T1  - The influence of annual changes in temperature and light (PAR) on the induction of Chla fluorescence in situ in Stellaria media (L.) and Plantago maior (L.)
T1  - Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Stellaria media (L.) i Plantago maior (L.)
VL  - 17
IS  - 1
SP  - 147
EP  - 153
ER  - 
@article{
author = "Nikolić, Bogdan and Dodig, Dejan and Jovanović, Vladan and Janjić, Vaskrsija and Milićević, Zoran",
year = "2008",
url = "http://rik.mrizp.rs/handle/123456789/225",
abstract = "Chla fluorescence, as a mode of estimation of photosynthesis, is especially sensitive to changes in temperature and light intensity (PAR). This enables us to study the influence of those ecophysiological parameters on photosynthesis in native plants. In this article, we examined the effect of annual changes in temperature and PAR on the parameters of Chla fluorescence in Stellaria media (L.), a plant species more frequent in colder periods of the year, and Plantago maior (L.), which is more frequent in warmer periods. Lower PAR and temperature slowed down the electron transport in PS2, but lower temperatures reduced the quantum efficacy of PS2 and improved processes in the antennae system and the size of plastoquinone pool of PS2 in Stellaria media (L.). Lower temperatures reduced quantum efficacy and slowed down the electron transport in PS2 in Plantago maior (L.). The facts that PAR (as well as temperature) affects photosynthesis, and that lower temperatures activate processes in the antennae system and those on the acceptor side of PS2 as a 'counterbalance' to the inhibition of quantum efficacy and electron transport in PS2, caused by low temperatures, point at possible explanations of low-temperature resistance of photosynthesis in Stellaria media (L.). On the other hand, low temperatures caused inhibition of quantum efficacy and electron transport in the PS2 of Plantago maior (L.), which caused low-temperature photoinhibition and stepped quenching of all physiological processes in the species. This might be the reason for the different levels of acclimation to low temperatures and different life strategies of the two species living in close vicinity., Fluorescencija Chla, kao pokazatelj fotosinteze, posebno je osetljiva na promene temperature i intenziteta svetlosti (PAR). To omogućava praćenje uticaja ovih ekofizioloških parametara na fotosintezu nativnih biljaka. U ovom radu dat je pregled uticaja godišnjih promena temperature i PAR na parametre fluorescencije Chla kod Stellaria media (L.), biljne vrste zastupljenije u hladnijem delu godine i Plantago maior (L.), biljne vrste zastupljenije u toplijem delu godine. Manje vrednosti PAR i temperature usporavaju transport elektrona u PS2, sniženje temperature umanjuje kvantnu efikasnost u PS2 i pozitivno deluje na antenske procese i veličinu pula plastohinona u PS2 kod Stellaria media (L.). Sniženje temperature umanjuje kvantni prinos i usporava transport elektrona u PS2 kod Plantago maior (L.). Činjenica da i PAR (pored temperature) deluje na fotosintezu, kao i da sniženje temperature aktivira antenske i procese na akceptorskoj strani PS2, kao "protivtežu" inhibiciji kvantne efikasnosti i transporta elektrona u PS2, uzrokovanoj niskim temperaturama, ukazuje na moguće uzroke niskotemperaturne otpornosti fotosinteze kod Stellaria media (L.). Nasuprot tome, kod Plantago maior (L.) niska temperatura uzrokuje inhibiciju kvantne efikasnosti i transporta elektrona u PS2, što dovodi do niskotemperaturne fotoinhibicije i postepenog gašenja svih fizioloških procesa kod te vrste. To bi moglo biti objašnjenje različite prilagođenosti na niske temperature i različitih životnih strategija ovih vrsta, koje žive u bliskom susedstvu.",
publisher = "Herbološko društvo Srbije",
journal = "Acta herbologica",
title = "The influence of annual changes in temperature and light (PAR) on the induction of Chla fluorescence in situ in Stellaria media (L.) and Plantago maior (L.), Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Stellaria media (L.) i Plantago maior (L.)",
volume = "17",
number = "1",
pages = "147-153"
}
Nikolić, B., Dodig, D., Jovanović, V., Janjić, V.,& Milićević, Z. (2008). Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Stellaria media (L.) i Plantago maior (L.).
Acta herbologicaHerbološko društvo Srbije., 17(1), 147-153.
Nikolić B, Dodig D, Jovanović V, Janjić V, Milićević Z. Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Stellaria media (L.) i Plantago maior (L.). Acta herbologica. 2008;17(1):147-153
Nikolić Bogdan, Dodig Dejan, Jovanović Vladan, Janjić Vaskrsija, Milićević Zoran, "Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Stellaria media (L.) i Plantago maior (L.)" 17, no. 1 (2008):147-153

Effects of temperature and light induction of CHL a fluorescence in situ: An ecophysiological view

Nikolić, B.; Dodig, Dejan; Jovanović, Vladan; Janjić, Vaskrsija; Đurović, Sanja

(Srpsko biološko društvo, Beograd, i dr., 2008)

TY  - JOUR
AU  - Nikolić, B.
AU  - Dodig, Dejan
AU  - Jovanović, Vladan
AU  - Janjić, Vaskrsija
AU  - Đurović, Sanja
PY  - 2008
UR  - http://rik.mrizp.rs/handle/123456789/246
AB  - The effects of PAR and temperature on induction of Chl a fluorescence were observed on leaves of 20 plant species in their natural environments. Light affects the acceptor side of PS2. Temperature regulation of PS2 activity proceeds by affecting the RC and acceptor side of PS2. The impact of higher temperature can be attributed to greater fluidity of the thylakoid membranes. Photosynthetically active radiation and temperature under the given conditions are in highly significant positive correlation, so it is not clear whether this impact is due to individual or complementary mechanisms of PAR and/or temperature affecting photosynthetic processes in the thylakoid membranes. Also, it is not clear whether species specificity has any significance in the plant photosynthetic response to changes of PAR and temperature. Changes of PAR and temperature during induction of Chl a fluorescence do not affect Pindex, as a parameter of total photosynthesis.
AB  - Praćen je uticaj PAR i temperature na indukciju fluorescencije Chl a na listovima 20 biljnih vrsta u njihovom prirodnom okruženju. Svetlost deluje na akceptorsku stranu PS2. Regulacija aktivnosti PS2 temperaturom odvija se uticajem na RC i akceptorsku stranu PS2. Uticaj povišene temperature moguće je objasniti i povećanom fluidnošću tilakoidnih membrana. PAR i temperatura u datim uslovima nalaze se u visokoznačajnoj pozitivnoj korelaciji, tako da nije jasno da li se radi o posebnim ili komplementarnim mehanizmima dejstva PAR i/ili temperature na fotosintetske procese u tilakoidnim membranama. Takođe nije jasno da li specijska specifičnost ima neki značaj u fotosintetskoj reakciji biljaka na promene PAR i temperature. U ovim procesima promene PAR i temperature ne utiču na Pindex, kao pokazatelj ukupne fotosinteze.
PB  - Srpsko biološko društvo, Beograd, i dr.
T2  - Archives of Biological Sciences
T1  - Effects of temperature and light induction of CHL a fluorescence in situ: An ecophysiological view
T1  - Uticaj temperature i svetlosti (par) na indukciju fluorescencije CHL a in situ - ekofiziološki pregled
VL  - 60
IS  - 4
SP  - 567
EP  - 572
DO  - 10.2298/ABS0804567N
ER  - 
@article{
author = "Nikolić, B. and Dodig, Dejan and Jovanović, Vladan and Janjić, Vaskrsija and Đurović, Sanja",
year = "2008",
url = "http://rik.mrizp.rs/handle/123456789/246",
abstract = "The effects of PAR and temperature on induction of Chl a fluorescence were observed on leaves of 20 plant species in their natural environments. Light affects the acceptor side of PS2. Temperature regulation of PS2 activity proceeds by affecting the RC and acceptor side of PS2. The impact of higher temperature can be attributed to greater fluidity of the thylakoid membranes. Photosynthetically active radiation and temperature under the given conditions are in highly significant positive correlation, so it is not clear whether this impact is due to individual or complementary mechanisms of PAR and/or temperature affecting photosynthetic processes in the thylakoid membranes. Also, it is not clear whether species specificity has any significance in the plant photosynthetic response to changes of PAR and temperature. Changes of PAR and temperature during induction of Chl a fluorescence do not affect Pindex, as a parameter of total photosynthesis., Praćen je uticaj PAR i temperature na indukciju fluorescencije Chl a na listovima 20 biljnih vrsta u njihovom prirodnom okruženju. Svetlost deluje na akceptorsku stranu PS2. Regulacija aktivnosti PS2 temperaturom odvija se uticajem na RC i akceptorsku stranu PS2. Uticaj povišene temperature moguće je objasniti i povećanom fluidnošću tilakoidnih membrana. PAR i temperatura u datim uslovima nalaze se u visokoznačajnoj pozitivnoj korelaciji, tako da nije jasno da li se radi o posebnim ili komplementarnim mehanizmima dejstva PAR i/ili temperature na fotosintetske procese u tilakoidnim membranama. Takođe nije jasno da li specijska specifičnost ima neki značaj u fotosintetskoj reakciji biljaka na promene PAR i temperature. U ovim procesima promene PAR i temperature ne utiču na Pindex, kao pokazatelj ukupne fotosinteze.",
publisher = "Srpsko biološko društvo, Beograd, i dr.",
journal = "Archives of Biological Sciences",
title = "Effects of temperature and light induction of CHL a fluorescence in situ: An ecophysiological view, Uticaj temperature i svetlosti (par) na indukciju fluorescencije CHL a in situ - ekofiziološki pregled",
volume = "60",
number = "4",
pages = "567-572",
doi = "10.2298/ABS0804567N"
}
Nikolić, B., Dodig, D., Jovanović, V., Janjić, V.,& Đurović, S. (2008). Uticaj temperature i svetlosti (par) na indukciju fluorescencije CHL a in situ - ekofiziološki pregled.
Archives of Biological SciencesSrpsko biološko društvo, Beograd, i dr.., 60(4), 567-572.
https://doi.org/10.2298/ABS0804567N
Nikolić B, Dodig D, Jovanović V, Janjić V, Đurović S. Uticaj temperature i svetlosti (par) na indukciju fluorescencije CHL a in situ - ekofiziološki pregled. Archives of Biological Sciences. 2008;60(4):567-572
Nikolić B., Dodig Dejan, Jovanović Vladan, Janjić Vaskrsija, Đurović Sanja, "Uticaj temperature i svetlosti (par) na indukciju fluorescencije CHL a in situ - ekofiziološki pregled" 60, no. 4 (2008):567-572,
https://doi.org/10.2298/ABS0804567N .
1
1
2

Influence of annual changes of temperature and light (PAR) on induction of Chla fluorescence in situ in Plantago lanceolata (L.)

Nikolić, Bogdan; Milićević, Zoran; Poštić, Dobrivoj; Dodig, Dejan; Jovanović, Vladan; Janjić, Vaskrsija

(Institut za zaštitu bilja i životnu sredinu, Beograd, 2007)

TY  - JOUR
AU  - Nikolić, Bogdan
AU  - Milićević, Zoran
AU  - Poštić, Dobrivoj
AU  - Dodig, Dejan
AU  - Jovanović, Vladan
AU  - Janjić, Vaskrsija
PY  - 2007
UR  - http://rik.mrizp.rs/handle/123456789/156
AB  - Chla fluorescence, as a mode of estimation of photosynthesis, especially are sensitive to changes of temperature and intensity of light (PAR). This enable to follow influence of this ecophysiological parameters of native plants photosynthesis. In this article we investigated influence of annual changes of temperature and PAR on parameters of induction of Chla fluorescence in Plantago lanceolata (L.), plant species more represented in warmer part of year. Lowering of temperature reduces quantum efficacy and electron transport in PS2 and induced low-temperature photoinhibition of photosynthesis. But, this is because of stronger photoprotective processes and changes of redox state of plastoquinone pool in PS2. Because that this processes we viewed as a acclimation to low temperatures. But with prolonged low-temperature exposure all physiological processes quenched and all aboveground parts delayed in that species. If we compare some different acclimation to low temperatures Plantago lanceolata and Plantago maior, species which settled in very neighbouring sites, the conclusion of that discussion is question: 'Is it different acclimative responses of this species in condition of low temperatures, reason for posible competitive advantage one of them?' This is object of future investigation.
AB  - Fluorescencija Chla, kao pokazatelj fotosinteze, posebno je osetljiva na promene temperature i intenziteta svetlosti (PAR). To omogućava praćenje uticaja ovih ekofizioloških parametara na fotosintezu nativnih biljaka. U ovom radu dat je pregled uticaja godišnjih promena temperature i PAR na parametre fluorescencije Chla kod Plantago lanceolata (L.), biljne vrste zastupljene u toplijem delu godine. Sniženje temperature umanjuje kvantni prinos i usporava transport elektrona u PS2, što dovodi do niskotemperaturne fotoinhibicije. Međutim, to se odvija jačanjem fotoprotektivnih procesa i promenom redoks stanja pula plastohinona u PS2, pa pomenute procese možemo posmatrati kao aklimaciju na nisku temperaturu. Ipak, vremenom dolazi do gašenja fizioloških procesa i izumiranja nadzemnih organa ove vrste tokom zime. Ovi nalazi diskutuju se odnosno životne strategije druge simpatričke vrste roda Plantago.
PB  - Institut za zaštitu bilja i životnu sredinu, Beograd
T2  - Zaštita bilja
T1  - Influence of annual changes of temperature and light (PAR) on induction of Chla fluorescence in situ in Plantago lanceolata (L.)
T1  - Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Plantago lanceolata L.
VL  - 58
IS  - 1-4
SP  - 79
EP  - 88
ER  - 
@article{
author = "Nikolić, Bogdan and Milićević, Zoran and Poštić, Dobrivoj and Dodig, Dejan and Jovanović, Vladan and Janjić, Vaskrsija",
year = "2007",
url = "http://rik.mrizp.rs/handle/123456789/156",
abstract = "Chla fluorescence, as a mode of estimation of photosynthesis, especially are sensitive to changes of temperature and intensity of light (PAR). This enable to follow influence of this ecophysiological parameters of native plants photosynthesis. In this article we investigated influence of annual changes of temperature and PAR on parameters of induction of Chla fluorescence in Plantago lanceolata (L.), plant species more represented in warmer part of year. Lowering of temperature reduces quantum efficacy and electron transport in PS2 and induced low-temperature photoinhibition of photosynthesis. But, this is because of stronger photoprotective processes and changes of redox state of plastoquinone pool in PS2. Because that this processes we viewed as a acclimation to low temperatures. But with prolonged low-temperature exposure all physiological processes quenched and all aboveground parts delayed in that species. If we compare some different acclimation to low temperatures Plantago lanceolata and Plantago maior, species which settled in very neighbouring sites, the conclusion of that discussion is question: 'Is it different acclimative responses of this species in condition of low temperatures, reason for posible competitive advantage one of them?' This is object of future investigation., Fluorescencija Chla, kao pokazatelj fotosinteze, posebno je osetljiva na promene temperature i intenziteta svetlosti (PAR). To omogućava praćenje uticaja ovih ekofizioloških parametara na fotosintezu nativnih biljaka. U ovom radu dat je pregled uticaja godišnjih promena temperature i PAR na parametre fluorescencije Chla kod Plantago lanceolata (L.), biljne vrste zastupljene u toplijem delu godine. Sniženje temperature umanjuje kvantni prinos i usporava transport elektrona u PS2, što dovodi do niskotemperaturne fotoinhibicije. Međutim, to se odvija jačanjem fotoprotektivnih procesa i promenom redoks stanja pula plastohinona u PS2, pa pomenute procese možemo posmatrati kao aklimaciju na nisku temperaturu. Ipak, vremenom dolazi do gašenja fizioloških procesa i izumiranja nadzemnih organa ove vrste tokom zime. Ovi nalazi diskutuju se odnosno životne strategije druge simpatričke vrste roda Plantago.",
publisher = "Institut za zaštitu bilja i životnu sredinu, Beograd",
journal = "Zaštita bilja",
title = "Influence of annual changes of temperature and light (PAR) on induction of Chla fluorescence in situ in Plantago lanceolata (L.), Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Plantago lanceolata L.",
volume = "58",
number = "1-4",
pages = "79-88"
}
Nikolić, B., Milićević, Z., Poštić, D., Dodig, D., Jovanović, V.,& Janjić, V. (2007). Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Plantago lanceolata L..
Zaštita biljaInstitut za zaštitu bilja i životnu sredinu, Beograd., 58(1-4), 79-88.
Nikolić B, Milićević Z, Poštić D, Dodig D, Jovanović V, Janjić V. Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Plantago lanceolata L.. Zaštita bilja. 2007;58(1-4):79-88
Nikolić Bogdan, Milićević Zoran, Poštić Dobrivoj, Dodig Dejan, Jovanović Vladan, Janjić Vaskrsija, "Uticaj godišnjih promena temperature i svetlosti (PAR) na indukciju fluorescencije Chla in situ kod Plantago lanceolata L." 58, no. 1-4 (2007):79-88