Young mixed planted forests store more carbon than monocultures—a meta-analysis

IF 2.7 3区 农林科学 Q2 ECOLOGY
Emily Warner, Susan C. Cook-Patton, Owen T. Lewis, Nick Brown, Julia Koricheva, Nico Eisenhauer, Olga Ferlian, Dominique Gravel, Jefferson S. Hall, Hervé Jactel, Carolina Mayoral, Céline Meredieu, Christian Messier, Alain Paquette, William C. Parker, Catherine Potvin, Peter B. Reich, Andy Hector
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Abstract

Although decades of research suggest that higher species richness improves ecosystem functioning and stability, planted forests are predominantly monocultures. To determine whether diversification of plantations would enhance aboveground carbon storage, we systematically reviewed over 11,360 publications, and acquired data from a global network of tree diversity experiments. We compiled a maximum dataset of 79 monoculture to mixed comparisons from 21 sites with all variables needed for a meta-analysis. We assessed aboveground carbon stocks in mixed-species planted forests vs. (a) the average of monocultures, (b) the best monoculture, and (c) commercial species monocultures, and examined potential mechanisms driving differences in carbon stocks between mixtures and monocultures. On average, we found that aboveground carbon stocks in mixed planted forests were 70% higher than the average monoculture, 77% higher than commercial monocultures, and 25% higher than the best performing monocultures, although the latter was not statistically significant. Overyielding was highest in four-species mixtures (richness range 2–6 species), but otherwise none of the potential mechanisms we examined (nitrogen-fixer present vs. absent; native vs. non-native/mixed origin; tree diversity experiment vs. forestry plantation) consistently explained variation in the diversity effects. Our results, predominantly from young stands, thus suggest that diversification could be a very promising solution for increasing the carbon sequestration of planted forests and represent a call to action for more data to increase confidence in these results and elucidate methods to overcome any operational challenges and costs associated with diversification.
一项荟萃分析显示,年轻的混合种植森林比单一种植森林储存更多的碳
尽管几十年的研究表明,较高的物种丰富度可以改善生态系统的功能和稳定性,但人工林主要是单一栽培。为了确定人工林的多样化是否会增加地上碳储量,我们系统地回顾了超过11,360份出版物,并从全球树木多样性实验网络中获取了数据。我们编制了来自21个地点的79个单一栽培混合比较的最大数据集,其中包含meta分析所需的所有变量。我们评估了混合种人工林与(a)单一栽培的平均水平、(b)最佳单一栽培和(c)商业树种单一栽培的地上碳储量,并探讨了混合种与单一栽培之间碳储量差异的潜在机制。平均而言,混交林的地上碳储量比一般单一栽培高70%,比商品单一栽培高77%,比表现最好的单一栽培高25%,但后者没有统计学意义。在4种混交(丰富度范围2-6种)中,过量产量最高,但除此之外,我们没有研究任何潜在的机制(固氮剂存在或不存在;本土vs.非本土/混合血统;树木多样性实验与森林人工林)一致地解释了多样性效应的变化。因此,我们的结果(主要来自幼林)表明,多样化可能是增加人工林碳固存的一个非常有希望的解决方案,并呼吁采取行动,收集更多数据,以增加对这些结果的信心,并阐明克服与多样化相关的任何操作挑战和成本的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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