DESIGN AND CONSTRUCTION OF PHYTOTRON-GREENHOUSE COMPLEXES

Authors

DOI:

https://doi.org/10.30890/2709-1783.2023-26-01-006

Keywords:

phytotron, greenhouses, spatial planning decisions, research technology, technology and organization of construction

Abstract

A brief historical analysis of the experience of development of structures and equipment for the study of plants in artificial conditions is given. The analysis of constructions and parameters of modern phytotrons and greenhouses for carrying out scientif

References

Famincev A S 1907 O roli simbioza v evolyucii organizmov Zapiski Imperatorskoj akademii nauk, fiz.-mat. otd. Seriya 8 T 20 №3 (Sankt-Peterburg: tip. Imp. Akad. nauk) p 1-14

Went F W 1943 Plant growth under controlled the air-conditioned greenhouses (California, institute of technology) p 157

Sullivan S, Thomson C E, Kaiserli E and Christie J M 2009 Interaction specificity of Arabidopsis 14-3-3 proteins with phototropin receptor kinases FEBS Letters p 2187-93

Peron A, Kaser L, Charlott Fitzky A, Graus M, Halbwirth H, Greiner J, Wohlfahrt G, Rewald B, Sanden H and Karl T 2021 Combined effects of ozone and drought stress on the emission of biogenic volatile organic compounds from Quercus robur L. Biogeosciences 18 p 535-56

Allaga H, Buchner R, Hatvani L, Szekeres A, Vagvolgyi C, Kredics L and Manczinger L 2019 Adaptation of a plan growth chamber for the experimental cultivation of champignons (Agaricus bisporus) Proceedings 21st danube-Kris-Mures-Tisza (DKMT) Euroregional Conference on Environment and Health p 51-9

Dubovoj V I 2000 Osnovy resursosberegayushih tehnologij v fitotronno-selekcionnyh kompleksah Avtoref. diss. dokt. s/h nauk po specialnosti 06.01.14 – agrofizika (Sankt-Peterburg) p 41

Kindruk N A, Sokolov V M and Vishnevsky V V 2012 Seed breeding with the basics of seed science Agrarna science (Kyiv) p 264

Zubovik O V 2017 Analiz i ocenka effektivnosti modernizacii tep-lichnogo kompleksa Instituta ovoshevodstva Ovoshevodstvo: Sb. nauchnyh trudov Tom 25 (Institut ovoshevodstva NAN Belarusi, Minsk) pp 44-51

Veter I I 2003 Osobennosti agroproektov i vozdejstviya fizicheskih faktorov pri kruglogodichnom vyrashivanii selekcionnogo materiala podsolnechnika v fitotronno-teplichnom komplekse Avtoref. diss. kand. s/h nauk po spec. 06.01.09 – rastenievodstvo (Krasnodar) p 21

Panfilova O V 2001 Osobennosti vyrashivaniya klesheviny v fitotronno-teplichnom komplekse v svyazi s zadachami rastenievodstva Avtoref. diss. kand. s/h nauk. po spec. 06.01.09 – rastenievodstvo (Krasnodar) p 22

Shishko G G, Potapov V A, Sulima L T i Chebanov L S 1993 Teplicy i teplichnye hozyajstva Spravochnik (Kiev: Urozhaj) p 424

Chebanov T L 2020 Tehnologiya zvedennya shvidko-zbirnih ta rozbirnih plivkovih teplic Avtoref.dis. kand.tehn.nauk po spec. 05-23.08 –Tehnologiya ta organizaciya promislovogo ta civilnogo budivnictva (Kiyiv, KNUBA) p 21

Weiss Technick 2015 Fitotron. Controlled Environments for plant Research (UK Limited, Leicesterschire) 15 p

Published

2023-04-30

How to Cite

Tonkacheiev, H., Chebanov, L., & Chebanov, T. (2023). DESIGN AND CONSTRUCTION OF PHYTOTRON-GREENHOUSE COMPLEXES. SWorld-Ger Conference Proceedings, 1(gec26-01), 28–33. https://doi.org/10.30890/2709-1783.2023-26-01-006