The Formation of Callus at the Graft Interface in Sitka Spruce

Miller, H. N.; Barnett, John

doi:10.1163/22941932-90000570

Cited by 8 publications

(2 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The effect of cambium has been reported in different graft survival studies [26,36,52]. It has been reported that the meristematic activity of the cambium between the scion and the rootstock is an important factor in the successful establishment of the graft [16,17]. In the present study, the size of the surface area of the scions and the rootstock plants showed a similarity of 97%; however, the cambium of the scions is irregularly shaped, in contrast to the almost circular shape of the cambium of the rootstock plants (Figure 3).…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Some Factors Involved in the Success of Side Veneer Grafting of Pinus engelmannii Carr.

Pérez-Luna

Prieto-Ruíz

López-Upton

et al. 2019

Forests

View full text Add to dashboard Cite

The establishment of clonal seed orchards is a viable option for the continuous production of improved seed of desired genotypes. Grafting is the main technique used to establish clonal seed orchards. The objective of this study was to examine how the geographic location and the age class of the donor trees of buds, the phenological status of the buds, and the anatomical characteristics of the scions and the rootstocks affect the survival and growth of Pinus engelmannii Carr. grafts. Scions were collected from two trees in each of three age classes (young, middle-aged, and old). Grafting was performed with buds in two physiological states (end of dormancy and beginning of sprouting). Cross-sections of the grafted organs were obtained for anatomical analysis. A Cox proportional hazards model was used to determine the effects of the variables that were considered. The age class of the scion donor trees, the total area of the cut surface of the scion, and the density of resin channels in the scions significantly affected (p < 0.05) survival of the grafts. By contrast, the physiological state of the buds and the other anatomical characteristics of the grafted organs did not significantly affect graft survival. In P. engelmannii, grafting was most effective when scions from middle-aged trees were used. Graft survival was enhanced by a small total area of the cut surface of the scion and low density of resin channels in the scions. The area of the cambium of the scions directly influenced growth of the grafts.

show abstract

Section: Discussionmentioning

confidence: 99%

“…Carr. [16], and in the genus Rhododendron L. [17]. Three important stages of graft development are recognized in this process: callus formation, cambial differentiation, and cambial continuity (vascular tissue formation) [18].…”

Section: Introductionmentioning

confidence: 99%

Some Factors Involved in the Success of Side Veneer Grafting of Pinus engelmannii Carr.

Pérez-Luna

Prieto-Ruíz

López-Upton

et al. 2019

Forests

View full text Add to dashboard Cite

show abstract

The Structure and Composition of Bead-like Projections on Sitka Spruce Callus Cells Formed during Grafting and in Culture

Miller¹

1993

Annals of Botany

View full text Add to dashboard Cite

Early Scion/Stock Junction in Compatible and Incompatible Pear/Pear and Pear/Quince Grafts: a Histo-cytological Study

et al. 1997

View full text Add to dashboard Cite

A comparative histo-cytological study of compatible and incompatible pear/pear and pear/quince grafts, grown in a glasshouse, was carried out on unions collected from day 1 to day 22 after budding (DAB). Successive steps leading to the graft junction were studied. Adhesion between the two partners was observed along the inner bark tissues (phloem and cambium) just 24 h after budding, while a necrotic layer appeared at the graft interface. The first cell divisions were observed 3 DAB. In the inner bark interface these led to the formation of a junction callus, inside which new cambial strands (neocambia) appeared between 10 and IS DAB, starting from the cut edges of the scion and stock cambia, and joining later when they began to produce both phloem and xylem derivatives. Along the outer bark interface, where the cut surfaces of the bark parenchyma were exposed to the air, divisions of the parenchyma cells gave rise to a new phellogen layer (neophellogen) approx. 6 DAB, and suber production was observed 10 DAB. No obvious differences were noticed between compatible and incompatible grafts during the first stages of graft junction. No particular cell necrosis phenomenon was observed at the interface of incompatible grafts. Nevertheless, the neocambial junction appeared to be delayed in pear/quince heterografts, especially in incompatible ones. This could be the first structural event of the incompatibility response in pear/quince grafts. © Annals of Botany CompanyKey words: Callus, cambium, Cydonia oblonga, differentiation, graft, histology, incompatibility, pear, Pyrus communis, quince. INTRODUCTIONQuince is widely used as a dwarfing rootstock for pear, although graft incompatibility frequently occurs between quince rootstocks and many pear cultivars . The main features shown by incompatible graft combinations are cell necrosis and vascular discontinuity at the graft interface, which lead to the breakage of the union or to the slow decline of the tree . It has been demonstrated that the occurrence of these typical symptoms requires actual contact between the tissues of the two graft partners, since incompatibility can be overcome by insertion of a mutually compatible interstock . These characteristics led to class incompatible pear / quince combinations into the localized type of incompatibility, which also includes apricot/plum and apricot/peach combinations . In pear/quince grafts, a possible mechanism for this so-called localized incompatibility has been proposed, involving the potential toxic effects of prunasin, a cyanogenic glycoside . According to this hypothesis prunasin, contained in the bark tissues of quince rootstocks, would ascend into the pear scion where it would be hydrolysed by ,8-glucosidases, liberating cyanide which would be toxic to the cambial cells, and therefore responsible for the cell necrosis at the graft interface. However, the details of tissue and cellular mechanisms of cyanogenesis at the graft interface have not yet been elucidated. In the same way, little is known about the em...

show abstract

The Formation of Callus at the Graft Interface in Sitka Spruce

Cited by 8 publications

References 12 publications

Some Factors Involved in the Success of Side Veneer Grafting of Pinus engelmannii Carr.

Some Factors Involved in the Success of Side Veneer Grafting of Pinus engelmannii Carr.

The Structure and Composition of Bead-like Projections on Sitka Spruce Callus Cells Formed during Grafting and in Culture

Early Scion/Stock Junction in Compatible and Incompatible Pear/Pear and Pear/Quince Grafts: a Histo-cytological Study

Contact Info

Product

Resources

About