Department of Biology, California State University, Bakersfield, Bakersfield, California.
Departamento de Sistemas y Recursos Naturales, Universidad Politécnica de Madrid (UPM), Madrid, Spain.
Plant Cell Environ. 2019 Jun;42(6):1816-1831. doi: 10.1111/pce.13528. Epub 2019 Apr 1.
Xylem vessel structure changes as trees grow and mature. Age- and development-related changes in xylem structure are likely related to changes in hydraulic function. We examined whether hydraulic function, including hydraulic conductivity and vulnerability to water-stress-induced xylem embolism, changed over the course of cambial development in the stems of 17 tree species. We compared current-year growth of young (1-4 years), intermediate (2-7 years), and older (3-10 years) stems occurring in series along branches. Diffuse and ring porous species were examined, but nearly all species produced only diffuse porous xylem in the distal branches that were examined irrespective of their mature xylem porosity type. Vessel diameter and length increased with cambial age. Xylem became both more conductive and more cavitation resistant with cambial age. Ring porous species had longer and wider vessels and xylem that had higher conductivity and was more vulnerable to cavitation; however, these differences between porosity types were not present in young stem samples. Understanding plant hydraulic function and architecture requires the sampling of multiple-aged tissues because plants may vary considerably in their xylem structural and functional traits throughout the plant body, even over relatively short distances and closely aged tissues.
木质部导管结构随树木生长和成熟而变化。木质部结构的年龄和发育相关变化可能与水力功能的变化有关。我们研究了在 17 个树种的茎干中,木质部导管形成层发育过程中,水力功能(包括导水率和对水分胁迫引起的木质部栓塞的脆弱性)是否会发生变化。我们比较了沿枝条成串出现的当年生(1-4 年)、中间生(2-7 年)和老熟(3-10 年)茎的当年生生长情况。我们研究了散生和环孔材树种,但几乎所有树种在被检测的远位枝条中只产生散生多孔木质部,而不论其成熟木质部的孔隙类型如何。导管直径和长度随形成层年龄的增加而增加。木质部的导水率和抗空化能力随形成层年龄的增加而提高。环孔材树种的导管更长、更宽,导水率更高,对空化作用更敏感;然而,在幼茎样本中,这些孔隙类型之间没有差异。了解植物水力功能和结构需要对多个年龄的组织进行采样,因为即使在相对较短的距离内和年龄相近的组织中,植物的木质部结构和功能特征也可能有很大差异。
