From inside the book
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Page 33
... season when natural germination of E. camaldulensis takes place in Australia . An overlap of the season of germination could be the cause for the consequent overlapping of the cambial activity . - In order to check this assumption seed ...
... season when natural germination of E. camaldulensis takes place in Australia . An overlap of the season of germination could be the cause for the consequent overlapping of the cambial activity . - In order to check this assumption seed ...
Page 69
... season 1965-1966 samples for the determination of cambial activity were taken from trees grown in Tel Aviv . The results are shown in Fig . 38. As can be seen from this figure , the cambium is active only during a short season . The ...
... season 1965-1966 samples for the determination of cambial activity were taken from trees grown in Tel Aviv . The results are shown in Fig . 38. As can be seen from this figure , the cambium is active only during a short season . The ...
Page 77
... season - does not exceed 2-5 cells per month . Early in the season larger parenchyma cells and vessels are produced ( spring wood ) while later in the season the smaller xylem elements characteristic for the summer wood are formed . As ...
... season - does not exceed 2-5 cells per month . Early in the season larger parenchyma cells and vessels are produced ( spring wood ) while later in the season the smaller xylem elements characteristic for the summer wood are formed . As ...
Common terms and phrases
30 days Acacia raddiana acid active buds adult trees annual rhythm annual ring application auxin branches cambial activity cambial zone cambium CELL LAYERS PRODUCED CO₂ deciduous defoliated determination of cambial differentiation dormancy Eucalyptus camaldulensis evergreen examined experiments extension growth Fahn fibres and parenchyma formation gibberellic acid greenhouse growth and cambial growth ring growth substances growth-regulating substances high temperatures histological inactive induced investigated Israel kinetin lanolin LDHT LDLT low temperature microtome months observed parenchyma cells period phloem photoperiods Phytol Pistacia lentiscus plants grown polyethylene polyethylene bags production of xylem radiological method rate of cambial ratio xylem-phloem Retama raetam rhythm of cambial Robinia pseudacacia scion SD conditions SDHT SDLT conditions season seems short day species sprayed stem summer TIBA transfer treatments trunk twigs type of wood various Waisel Wareing wood produced XYLEM CELL LAYERS xylem elements Zygophyllum dumosum