Assisted Migration of Sequoiadendron Genotypes for Conservation and Timber: Performance and Morphology in a Warmer Climate Outside of Their Range

Conservation Pub Date : 2023-12-01 DOI:10.3390/conservation3040035

Christopher M. Valness, William J. Libby, J. Berrill

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Abstract

Sequoiadendron giganteum (giant sequoia) has a fragmented distribution of 75 groves found along the western slope of the Sierra Nevada Mountains, California, USA. Outplanting and range expansion or assisted migration of this iconic species for the objectives of genetic conservation and timber production would be supported by information on growth and morphology to guide seed-collection decisions. We measured and assessed giant sequoia planted as seedlings and clonal stock originating from 22 groves in two common-garden experiments at Foresthill, California, north of the current species range, after 29 growing seasons. Traits examined were tree-size parameters, fluting and asymmetry of the lower stem, basal swelling, fullness of the live crown, epicormic sprouting, and heartwood decay resistance in cut stumps. Performance in terms of tree size after 29 years varied widely among genotypes with different grove origins. Morphology and decay resistance also exhibited some variation according to grove origins. The seedling stock outperformed the clonal stock of the same grove origins in terms of size and is therefore recommended when faster early growth is desired to outcompete other trees or for other management objectives. However, more fluting was exhibited by the larger fast-growing giant sequoia, while fewer seedlings had epicormic sprouts than the clonal stock of the same grove origins. At our warm low-elevation study site, giant sequoia from Mountain Home, Giant Forest, and Converse Basin consistently exhibited above-average growth among other giant sequoia in a pure planting and in an intimate mixture with five common conifer associates. Therefore, seed collected from these three groves should perform relatively well at other locations with a similar climate. When conservation of the species and its genetic diversity is the primary objective, we recommend collecting from a wide range of groves and undertaking assisted migration by planting at multiple locations inside and outside giant sequoia’s range as a hedge against the loss of native groves.

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水杉基因型为保护和木材而进行的辅助迁移：在其原产地以外的温暖气候中的表现和形态

巨红杉(Sequoiadendron giganteum)分布在美国加利福尼亚州内华达山脉西坡的75个小树林中。为了遗传保护和木材生产的目的，这一标志性物种的外植和范围扩大或辅助迁移将得到生长和形态信息的支持，以指导种子收集的决定。在美国加州forethill的两个普通花园实验中，我们测量和评估了29个生长季节后，作为幼苗和克隆砧木种植的巨红杉，这些巨红杉来自22个林，位于当前物种范围的北部。检测的性状包括树的大小参数、下茎的凹槽和不对称、基部肿胀、活树冠丰满度、外生芽和切根的心材耐腐性。29年后，不同林源的基因型在树高方面的表现差异很大。不同树种的形态和抗腐性也有一定的差异。幼苗砧木在大小方面优于同一树林起源的无性系砧木，因此，当希望更快的早期生长以胜过其他树木或实现其他管理目标时，建议使用幼苗砧木。然而，体型较大的速生巨红杉比相同林源的无性系砧木有更多的凹槽，而具有表皮芽的幼苗较少。在我们温暖的低海拔研究地点，来自Mountain Home、giant Forest和Converse盆地的巨红杉在纯种植和与五种常见针叶树的密切混合中，始终表现出高于其他巨红杉平均水平的生长。因此，从这三个小树林收集的种子在其他气候相似的地方应该表现相对较好。当保护物种及其遗传多样性是主要目标时，我们建议从广泛的森林中收集，并通过在红杉范围内外的多个地点种植来进行辅助迁移，以防止原生森林的损失。

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Conservation

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