"978-80-7427-153-3" . . . "Abiotic stress is a main cause of reduced yield in case of healthy plants. In this context, many scientific research projects dealt with the impact of climate change on agricultural crops in the Czech Republic. They were primarily focused on the impact of stress evaluation -- especially drought and temperature extremes. The main current problem is lack of soil water or soil drought and high air temperatures respectively. It has also been proved the prolongation of the growing season by 15 to 25 days in last twenty years. It is attended by an increasing risk of vegetation frost. Concrete adaptation measures that would eliminate the impacts of climate change era still rather virtual reality. Such measures are unfortunately very rare in proportion to the amount of expended funds. Stand monitoring of meteorological elements is crucial for precise description of microclimatic conditions in the stand and their influence on plants physiological processes. Outcomes of microclimate monitoring provide valuable data for growth, phytopathological, yield and irrigation models and wide range of other applications. Monitoring of air temperature and humidity as well as temperature and soil moisture and solar radiation should be an integral part of all growing trials -- pot or field as well. It is difficult to find any kind of cultivation experiment where the soil moisture and air temperature do not play more or less important role. Given the current availability of sensors for automated monitoring their sporadic use in field experiments is startling. Different strategies of plant resistance to adverse influences during the yield formation are often associated with different modes of their root system formation (its qualitative and quantitative parameters). The differences are apparent at the level of species and varieties as well. Czech scientists work published in 2013 dealt with the potential adaptation measures."@en . "RIV/62156489:43210/14:00219084!RIV15-MZE-43210___" . "P(QI111C080)" . "St\u0159eda, Tom\u00E1\u0161" . . . "root system; air temperature; stress; soil temperature; microclimate; abiotic stress"@en . . "\u00DAskal\u00ED m\u011B\u0159en\u00ED a hodnocen\u00ED vybran\u00FDch faktor\u016F tvorby v\u00FDnosu poln\u00EDch plodin" . . "Klime\u0161ov\u00E1, Jana" . . "P\u0159\u00EDsp\u011Bvky k problematice zem\u011Bd\u011Blsk\u00E9ho pokusnictv\u00ED" . "35"^^ . "Abiotick\u00FD stres je u zdrav\u00FDch rostlin hlavn\u00ED p\u0159\u00ED\u010Dinou sn\u00ED\u017Een\u00ED produkce. V t\u00E9to souvislosti se v \u010Cesk\u00E9 republice v\u011Bnovalo n\u011Bkolik des\u00EDtek v\u011Bdeck\u00FDch projekt\u016F v\u00FDzkumu vlivu zm\u011Bny klimatu na zem\u011Bd\u011Blsk\u00E9 plodiny. T\u00E9maticky byly dominantn\u011B zam\u011B\u0159eny na hodnocen\u00ED dopad\u016F stresor\u016F -- zejm\u00E9na sucha a teplotn\u00EDch extr\u00E9m\u016F. Jako hlavn\u00ED probl\u00E9m se v sou\u010Dasnosti jev\u00ED nedostupnost p\u016Fdn\u00ED vody resp. p\u016Fdn\u00ED sucho a vysok\u00E9 teploty vzduchu. Bylo tak\u00E9 nap\u0159\u00EDklad prok\u00E1z\u00E1no, \u017Ee b\u011Bhem posledn\u00EDch dvaceti let se vegeta\u010Dn\u00ED obdob\u00ED prodlou\u017Eilo o 15 -- 25 dn\u00ED, co\u017E s sebou p\u0159in\u00E1\u0161\u00ED i rostouc\u00ED riziko v\u00FDskytu vegeta\u010Dn\u00EDch mraz\u016F. Pon\u011Bkud virtu\u00E1ln\u00ED realitou jsou v\u0161ak hmatateln\u00E1 adapta\u010Dn\u00ED opat\u0159en\u00ED, kter\u00E1 by poskytovala skute\u010Dn\u00FD potenci\u00E1l eliminace dopad\u016F v\u00FDvoje klimatu. V pom\u011Bru k mno\u017Estv\u00ED vynalo\u017Een\u00FDch prost\u0159edk\u016F jsou konkr\u00E9tn\u00ED doporu\u010Den\u00ED a opat\u0159en\u00ED bohu\u017Eel sporadick\u00E1. Z d\u016Fvod\u016F precizn\u00EDho popisu mikroklimatick\u00FDch pom\u011Br\u016F v porostu a jeho vlivu na fyziologick\u00E9 procesy rostliny je v\u00FDznamn\u00FD porostn\u00ED monitoring meteorologick\u00FDch prvk\u016F. V\u00FDstupy z mikroklimatick\u00E9ho monitoringu poskytuj\u00ED cenn\u00E1 data pro r\u016Fstov\u00E9, fytopatologick\u00E9, v\u00FDnosov\u00E9 a z\u00E1vlahov\u00E9 modely a spektrum dal\u0161\u00EDch aplikac\u00ED. Monitoring teploty a vlhkosti vzduchu, stejn\u011B jako teploty a vlhkosti p\u016Fdy a sol\u00E1rn\u00ED radiace by m\u011Bl b\u00FDt ned\u00EDlnou sou\u010D\u00E1st\u00ED v\u0161ech p\u011Bstitelsk\u00FDch pokus\u016F, a\u0165 u\u017E n\u00E1dobov\u00FDch \u010Di poln\u00EDch. T\u011B\u017Eko naj\u00EDt typ p\u011Bstitelsk\u00E9ho pokusu, kde by vlhkost p\u016Fdy \u010Di teplota vzduchu nesehr\u00E1valy v\u00EDce \u010Di m\u00E9n\u011B v\u00FDznamnou roli. S ohledem na aktu\u00E1ln\u00ED dostupnost senzor\u016F pro automatizovan\u00FD monitoring je a\u017E p\u0159ekvapiv\u00E9 jejich ojedin\u011Bl\u00E9 vyu\u017E\u00EDv\u00E1n\u00ED v poln\u00EDch experimentech. R\u016Fzn\u00E9 strategie odolnosti v\u016F\u010Di nep\u0159\u00EDzniv\u00FDm vliv\u016Fm v pr\u016Fb\u011Bhu tvorby v\u00FDnosu u rostlin jsou \u010Dasto spjaty s odli\u0161n\u00FDm zp\u016Fsobem utv\u00E1\u0159en\u00ED ko\u0159enov\u00E9ho syst\u00E9mu, jeho kvantitativn\u00EDmi i kvalitativn\u00EDmi parametry. Rozd\u00EDly jsou patrn\u00E9 na \u00FArovni druh\u016F i odr\u016Fd."@cs . "142"^^ . "3"^^ . . "Praha" . . "3"^^ . . . "RIV/62156489:43210/14:00219084" . "\u00DAskal\u00ED m\u011B\u0159en\u00ED a hodnocen\u00ED vybran\u00FDch faktor\u016F tvorby v\u00FDnosu poln\u00EDch plodin"@cs . "43210" . "52509" . "1" . "\u00DAskal\u00ED m\u011B\u0159en\u00ED a hodnocen\u00ED vybran\u00FDch faktor\u016F tvorby v\u00FDnosu poln\u00EDch plodin" . . . . . "\u00DAskal\u00ED m\u011B\u0159en\u00ED a hodnocen\u00ED vybran\u00FDch faktor\u016F tvorby v\u00FDnosu poln\u00EDch plodin"@cs . . . . "V\u00FDzkumn\u00FD \u00FAstav rostlinn\u00E9 v\u00FDroby, v.v.i." . "Pitfalls of measurement and evaluation of chosen factor of field crops yield formation"@en . . "Abiotick\u00FD stres je u zdrav\u00FDch rostlin hlavn\u00ED p\u0159\u00ED\u010Dinou sn\u00ED\u017Een\u00ED produkce. V t\u00E9to souvislosti se v \u010Cesk\u00E9 republice v\u011Bnovalo n\u011Bkolik des\u00EDtek v\u011Bdeck\u00FDch projekt\u016F v\u00FDzkumu vlivu zm\u011Bny klimatu na zem\u011Bd\u011Blsk\u00E9 plodiny. T\u00E9maticky byly dominantn\u011B zam\u011B\u0159eny na hodnocen\u00ED dopad\u016F stresor\u016F -- zejm\u00E9na sucha a teplotn\u00EDch extr\u00E9m\u016F. Jako hlavn\u00ED probl\u00E9m se v sou\u010Dasnosti jev\u00ED nedostupnost p\u016Fdn\u00ED vody resp. p\u016Fdn\u00ED sucho a vysok\u00E9 teploty vzduchu. Bylo tak\u00E9 nap\u0159\u00EDklad prok\u00E1z\u00E1no, \u017Ee b\u011Bhem posledn\u00EDch dvaceti let se vegeta\u010Dn\u00ED obdob\u00ED prodlou\u017Eilo o 15 -- 25 dn\u00ED, co\u017E s sebou p\u0159in\u00E1\u0161\u00ED i rostouc\u00ED riziko v\u00FDskytu vegeta\u010Dn\u00EDch mraz\u016F. Pon\u011Bkud virtu\u00E1ln\u00ED realitou jsou v\u0161ak hmatateln\u00E1 adapta\u010Dn\u00ED opat\u0159en\u00ED, kter\u00E1 by poskytovala skute\u010Dn\u00FD potenci\u00E1l eliminace dopad\u016F v\u00FDvoje klimatu. V pom\u011Bru k mno\u017Estv\u00ED vynalo\u017Een\u00FDch prost\u0159edk\u016F jsou konkr\u00E9tn\u00ED doporu\u010Den\u00ED a opat\u0159en\u00ED bohu\u017Eel sporadick\u00E1. Z d\u016Fvod\u016F precizn\u00EDho popisu mikroklimatick\u00FDch pom\u011Br\u016F v porostu a jeho vlivu na fyziologick\u00E9 procesy rostliny je v\u00FDznamn\u00FD porostn\u00ED monitoring meteorologick\u00FDch prvk\u016F. V\u00FDstupy z mikroklimatick\u00E9ho monitoringu poskytuj\u00ED cenn\u00E1 data pro r\u016Fstov\u00E9, fytopatologick\u00E9, v\u00FDnosov\u00E9 a z\u00E1vlahov\u00E9 modely a spektrum dal\u0161\u00EDch aplikac\u00ED. Monitoring teploty a vlhkosti vzduchu, stejn\u011B jako teploty a vlhkosti p\u016Fdy a sol\u00E1rn\u00ED radiace by m\u011Bl b\u00FDt ned\u00EDlnou sou\u010D\u00E1st\u00ED v\u0161ech p\u011Bstitelsk\u00FDch pokus\u016F, a\u0165 u\u017E n\u00E1dobov\u00FDch \u010Di poln\u00EDch. T\u011B\u017Eko naj\u00EDt typ p\u011Bstitelsk\u00E9ho pokusu, kde by vlhkost p\u016Fdy \u010Di teplota vzduchu nesehr\u00E1valy v\u00EDce \u010Di m\u00E9n\u011B v\u00FDznamnou roli. S ohledem na aktu\u00E1ln\u00ED dostupnost senzor\u016F pro automatizovan\u00FD monitoring je a\u017E p\u0159ekvapiv\u00E9 jejich ojedin\u011Bl\u00E9 vyu\u017E\u00EDv\u00E1n\u00ED v poln\u00EDch experimentech. R\u016Fzn\u00E9 strategie odolnosti v\u016F\u010Di nep\u0159\u00EDzniv\u00FDm vliv\u016Fm v pr\u016Fb\u011Bhu tvorby v\u00FDnosu u rostlin jsou \u010Dasto spjaty s odli\u0161n\u00FDm zp\u016Fsobem utv\u00E1\u0159en\u00ED ko\u0159enov\u00E9ho syst\u00E9mu, jeho kvantitativn\u00EDmi i kvalitativn\u00EDmi parametry. Rozd\u00EDly jsou patrn\u00E9 na \u00FArovni druh\u016F i odr\u016Fd." . "Pitfalls of measurement and evaluation of chosen factor of field crops yield formation"@en . . "[53E302E9D006]" . "St\u0159edov\u00E1, Hana" .