高海拔云杉的细胞光度分化:生理和生态意义。

G P Berlyn, J L Royte, A O Anoruo
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引用次数: 34

摘要

红、黑云杉及其杂交种可通过形态指标确定;然而,这些标准有些主观,而且越来越难以在高海拔地区使用。虽然染色体数目相同(2n = 24),但红云杉的核DNA (48 pg)是黑云杉(24 pg)的两倍,因此可以通过细胞光度法将这两种云杉及其杂交品种区分开来。这与云杉衰退研究有关,因为黑云杉对高海拔环境压力的抵抗力更强,无论是自然的还是人为的。它还暗示了气候变化对高海拔云杉森林组成的影响,因为在更温和的条件下,红云杉可以胜过黑云杉。在美国新罕布什尔州华盛顿山(Mount Washington)和佛蒙特州骆驼峰(Camels Hump)的东侧和西侧,以及纽约州怀特菲斯山(Whiteface Mountain)的西南侧,分别对云杉进行了4个海拔样带取样,探讨了这两种云杉之间的杂交和渐近程度。华盛顿山和骆驼峰海拔升高与黑云杉基因增加呈显著正相关。纯黑云杉生长在海拔1356米至1582米的华盛顿山上。驼峰上没有发现纯黑云杉和纯红云杉,但红云杉等位基因的比例显著高于驼峰。在白面山所有海拔取样的树木均为纯红云杉。因此,黑云杉等位基因在高海拔云杉种群中所占比例自东向西递减。这与云杉自东向西逐渐减少的趋势非常相似。
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Cytophotometric differentiation of high elevation spruces: physiological and ecological implications.

Red and black spruce and their hybrids can be determined by morphological indices; however, the criteria are somewhat subjective and increasingly difficult to use at higher elevations. Although the chromosome number is identical (2n = 24), red spruce has twice as much nuclear DNA (48 pg) than black spruce (24 pg) and thus the species and their hybrids can also be separated by cytophotometry. This is relevant to spruce decline studies because black spruce is much more resistant to high elevation environmental stresses, both natural and anthropogenic. It also has implications for the effect of climatic changes on the composition of high elevation spruce-fir forests because red spruce can outcompete black spruce under more mesic conditions. Four elevation transects sampling spruce on the east and west sides of Mount Washington (New Hampshire) and Camels Hump (Vermont) and a single transect on the southwest side of Whiteface Mountain (New York) were made to investigate the degree of hybridization and introgression between these two species. A positive correlation was found between increased elevation and increased black spruce genes on Mount Washington and Camels Hump. Pure black spruce was found on Mount Washington from 1356 m to 1582 m. No pure black or red spruce was found on Camels Hump although the proportion of red spruce alleles was significantly greater on Camels Hump. All trees sampled at all elevations on Whiteface Mountain were pure red spruce. Thus the proportion of black spruce alleles in high elevation spruce populations decreases from east to west. This closely parallels the increase in spruce decline which increases from east to west.

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