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Farzad Nazari

Farzad Nazari

Academic rank: Associate Professor
ORCID: 0000-0001-5671-6188
Education: PhD.
ScopusId: 24921751900
HIndex:
Faculty: Faculty of Agriculture
Address: Department of Horticultural Science Faculty of Agriculture, University of Kurdistan, Sanandaj, Iran. Postal code (ZIP Code): 66177- 15175
Phone: 08733620552

Research

Title
In vitro asymbiotic seed germination, protocorm formation, and plantlet development of Orchis simia Lam.: A threatened terrestrial orchid species
Type
JournalPaper
Keywords
CITES Monkey orchid Salep Organic nitrogen Threatened orchids
Year
2022
Journal SOUTH AFRICAN JOURNAL OF BOTANY
DOI
Researchers Mozhgan Fatahi ، Yavar Vafaee ، Farzad Nazari ، Nawroz Abdul-razzak Tahir

Abstract

The present study examined the seed morphometric and viability, asymbiotic seed germination, protocorm formation, and plantlet growth in Orchis simia Lam., an at-risk Euro-Mediterranean terrestrial orchid species. Furthermore, tissue histology pattern in vitro grown plantlets and field-established was compared. After one month, shoot and root primordia started to grow on developing protocorms and small plantlets became visible after 23 subculturing. Asymbiotic in vitro seed germination and plantlet growth attributes were significantly (P<0.05) impacted by both type of main organic constituent and nitrogen sources. The seeds sown on media supplemented with pineapple juice (PJ) and casein hydrolysate (CH) had the highest germination percentage. In terms of required days to see the first signs of germination, CW+AV treatment brings about the fastest germination (6.8 § 0.20 days). Protocorms grown on the media comprising PJ in combination with Aminoven (AV) or casein hydrolysate (CH) or Pep showed higher dimensions and therefore higher weight (% 450 increase) compared to protocorms grown on other media. Altogether, treatments with higher germination percentage, faster germination, and bigger protocorms finally resulted in better plantlet growth. Acclimatization of in vitro grown plantlets occurred by converting scattered vascular tubes into fully developed xylem and phloem vessels facilitating sap flow. Taking into account the fragmentation of O. simia populations in the Middle East and the EuroMediterranean basin mainly due to tuber overharvesting and climate change, the present procedure could be used for large-scale multiplication of in vitro raised seedlings to re-introduce into endangered regions.