2021
DOI: 10.3390/f12030341
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Coexistent Heteroblastic Needles of Adult Pinus canariensis C.Sm. ex DC. in Buch Trees Differ Structurally and Physiologically

Abstract: Great variation in shape and size between primary (juvenile) and secondary (adult) needles, so-called leaf-heteroblasty, occurs in several Pinus species. Most of them loss primary needles during the juvenile-to-adult transition of the tree. An exception to this is Pinus canariensis (a Canary Islands endemism) in which basal resprouting twigs of adult trees frequently wear both primary and secondary needles. Taking advantage of this extraordinary study-case-species, we conducted an exhaustive comparison of both… Show more

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Cited by 6 publications
(4 citation statements)
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“…and are typically higher at the leaf level due to the impact of decreasing the diameter of the tracheary elements [54]. This effect could be particularly noticeable in P. canariensis due to a delayed heteroblastic change [34] and primary needles with a lesser-developed vascular tissue than secondary needles [55]. Thus, leaves can be considered 'hydraulic bottlenecks' [56,57].…”
Section: Figurementioning
confidence: 99%
See 1 more Smart Citation
“…and are typically higher at the leaf level due to the impact of decreasing the diameter of the tracheary elements [54]. This effect could be particularly noticeable in P. canariensis due to a delayed heteroblastic change [34] and primary needles with a lesser-developed vascular tissue than secondary needles [55]. Thus, leaves can be considered 'hydraulic bottlenecks' [56,57].…”
Section: Figurementioning
confidence: 99%
“…Leaf hydraulic resistances may result in large water potential gradients between the xylem and other tissues in transpiring leaves [59]. The presence of endodermis and transfusion tissue surrounding vascular tissues in needles [55,60,61] may contribute to generating and sustaining such water potential gradients together with an uneven water distribution over the leaf, as has been observed in other species [62]. In addition, increased vulnerability to cavitation in leaves could be driven by an early loss of hydraulic conductance in extra-xylary pathways rather than xylem embolism [63].…”
Section: Changes In Needle Osmotic Potential Under Hot Wind: P Canari...mentioning
confidence: 99%
“…Moreover, primary needles had greater mesophyll and chloroplast volume fractions than that of secondary needles, implying they have an overall greater photosynthetic activity [37]. Nevertheless, the secondary needles had a higher fraction of water conducting (xylem), nutrient transporting (phloem), and transfusion parenchyma than that of primary needles, improving the compensation mechanism of material transport capacity [38]. We hypothesized that heteroblastic foliage would exhibit different photosynthetic mechanisms under similar environmental conditions.…”
Section: Introductionmentioning
confidence: 99%
“…Las procedencias atlánticas de P. pinaster tienen asociados mayores crecimientos que las mediterráneas ante las mismas condiciones de cultivo, lo que se debe a su mayor proporción de acículas juveniles, que son fotosintéticamente más eficientes que las adultas (de la Mata et al, 2014). Fernández-Marín et al (2021) encontraron el mismo resultado en el caso de P. canariensis. Sin embargo, parece que en las procedencias mediterráneas, una mayor proporción de acículas adultas indica un mejor status de establecimiento, pues las plántulas que se encuentran más estresadas suelen retrasar la producción de acícula adulta (de la Mata et al, 2014).…”
Section: Discussionunclassified