Phenological performance of olive tree in a warm production area of central Tunisia
O Elloumi, M Ghrab, A Chatti, A Chaari, MB Mimoun - Scientia Horticulturae, 2020 - Elsevier
O Elloumi, M Ghrab, A Chatti, A Chaari, MB Mimoun
Scientia Horticulturae, 2020•ElsevierClimate changes are expected to have a great and negative impact on agriculture in
Mediterranean region. In this region, olive industry plays a key role at regional and national
level as in Tunisia. With expected increasing temperature, the impact of climate change on
the phonological behavior of the olive cultivars was evaluated in the main production region
in central Tunisia (34° 56′ 08 ″N, 10° 36′ 54 ″E) during 2005–2015. The relationships
between the budburst and flowering dates and climatic variations were investigated for the …
Mediterranean region. In this region, olive industry plays a key role at regional and national
level as in Tunisia. With expected increasing temperature, the impact of climate change on
the phonological behavior of the olive cultivars was evaluated in the main production region
in central Tunisia (34° 56′ 08 ″N, 10° 36′ 54 ″E) during 2005–2015. The relationships
between the budburst and flowering dates and climatic variations were investigated for the …
Abstract
Climate changes are expected to have a great and negative impact on agriculture in Mediterranean region. In this region, olive industry plays a key role at regional and national level as in Tunisia. With expected increasing temperature, the impact of climate change on the phonological behavior of the olive cultivars was evaluated in the main production region in central Tunisia (34°56′08″N, 10°36′54″E) during 2005–2015.The relationships between the budburst and flowering dates and climatic variations were investigated for the main local (Chemlali, Chemchali, Oueslati and Chetoui) and foreign (Koroneiki and Arbequina) olive cultivars to state their adaptability to warm area climate. Chilling was computed as chill portions (CP) from October to budburst using Dynamic Model, whereas heat accumulation was quantified as growing degree hours (GDH) from budburst to the beginning of flowering. As a result, variable budburst and flowering dates of olive cultivars were obtained related to the climatic conditions occurring each year. ‘Chemlali’ and ‘Arbequina’ seemed to be the precocious cultivars with an average budburst date of DOY-71 (March-12), whereas ‘Chemchali’ and ‘Koroneiki’ were the most late with an average budburst dates of DOY-80 and DOY-81 (March21-22). The beginning of flowering occurred from DOY-93 (3-April) to DOY-126 (6-May), where ‘Chemchali’ seemed, also, to be the latest one. Winter chill impacted significantly olive flowering with a positive correlation between flowering date and chill accumulation. A tendency for advancing flowering of local and foreign olive cultivars occurred subsequent a lack of winter chill. Trends for increasing heat accumulation with increasing chilling were observed in exponential manner to achieve flowering of olive cultivars. Moreover, winter temperature, appeared to be one of the most important variables in determining flowering time of olive cultivars mainly when quarterly and monthly mean temperatures were considered. In conclusion, this investigation is the first database concerning olive cultivars originated from different geographical areas and grown in a warm area. It revealed that olive cultivars behaved differently with contrasting chilling and heat accumulations and in years with extreme climatic conditions. It will be more interesting to consider the important genetic diversity of olive tree to mitigate the harmful effect of increasing temperature in the future.
Elsevier
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