The Response of Soilless Grown 'Michele Palieri' (Vitis vinifera L.) Grapevine Cultivar to Deficit Irrigation Under the Effects of Different Rootstocks
Küçük Resim Yok
Tarih
2018
Yazarlar
Dergi Başlığı
Dergi ISSN
Cilt Başlığı
Yayıncı
SPRINGER
Erişim Hakkı
info:eu-repo/semantics/closedAccess
Özet
Global warming, altering the physiology and irrigation demand of grapevines, has already been perceived in certain premium viticulture regions across the world. Selection of proper rootstocks for especially new cultivars has vital role for asustainable viticulture under water-deficit conditions. The grapevine cultivar 'Michele Palieri' has been finding a good reception on the global markets. The objective of this study was to determine the response of 'Michele Palieri' cultivar to deficit irrigation using different rootstocks with distinct genetic origins. Two irrigation regimes (Full Irrigation [FI] and Deficit Irrigation [DI]) were applied to the vines of different grafting combinations of 'Michele Palieri' with Kober 5 BB, Richter 99, Richter 110, 140 Ruggeri, 44-53 Malegue or grown on own roots. Two years old vines were cultivated in 60L pots containing sterile peat under controlled glasshouse conditions. Irrigations were regulated according to soil water matric potential (m) levels using tensiometers. The volume of the irrigation water that has to be applied to attain 100% field capacity was performed as FI, while 50% of FI was considered as DI. The water was transported directly into the pots by micro-irrigation systems consisting of individual spaghetti tubes. The vines of DI treatment showed visible symptoms of mild water stress (e.g., loss of turgor in shoot tips), but no defoliation or leaf necrosis occurred. DI treatment reduced the gs of 'Michele Palieri' scion cultivar in varying levels depending on the rootstock. DI treatment also affected vegetative growth of the scion cultivar in different levels. For example, the greatest decrease (26.7%) in shoot length resulting from DI was determined in 'Michele Palieri'/5 BB grapevines, followed by own rooted vines (13.1%), while the lowest change (2.4%) was found in vines grafted on 110R. Overall findings of this study imply that the rootstocks originating from V. berlandiery x V. rupestris hybrids (110R, 99R, 140Ru and 44-53M) better performed in a similar genetic aptitude under deficit irrigation regime while the rootstock 5 BB (V. berlandiery x V.rupestris) showed more susceptible responses. On the other hand, the general response of own rooted vines were better than those grafted on 5 BB. Therefore, the use of one of V. berlandiery x V. rupestris hybrids may be abetter choice for viticulture under semiarid regions.
Açıklama
Anahtar Kelimeler
Michele Palieri' grapes, Rootstock, Water shortage, Deficit irrigation
Kaynak
ERWERBS-OBSTBAU
WoS Q Değeri
Q2
Scopus Q Değeri
Q3
Cilt
60
