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美国缅因州霍兰德一片成熟云杉-铁杉林中施加到树冠层的氮-15示踪剂的分布情况。

Distribution of nitrogen-15 tracers applied to the canopy of a mature spruce-hemlock stand, Howland, Maine, USA.

作者信息

Dail David Bryan, Hollinger David Y, Davidson Eric A, Fernandez Ivan, Sievering Herman C, Scott Neal A, Gaige Elizabeth

机构信息

The University of Maine, Orono, ME 04469-5722, USA.

出版信息

Oecologia. 2009 Jun;160(3):589-99. doi: 10.1007/s00442-009-1325-x. Epub 2009 Apr 8.

Abstract

In N-limited ecosystems, fertilization by N deposition may enhance plant growth and thus impact C sequestration. In many N deposition-C sequestration experiments, N is added directly to the soil, bypassing canopy processes and potentially favoring N immobilization by the soil. To understand the impact of enhanced N deposition on a low fertility unmanaged forest and better emulate natural N deposition processes, we added 18 kg N ha(-1) year(-1) as dissolved NH(4)NO(3) directly to the canopy of 21 ha of spruce-hemlock forest. In two 0.3-ha subplots, the added N was isotopically labeled as (15)NH(4) (+) or (15)NO(3) (-) (1% final enrichment). Among ecosystem pools, we recovered 38 and 67% of the (15)N added as (15)NH(4) (+) and (15)NO(3) (-), respectively. Of (15)N recoverable in plant biomass, only 3-6% was recovered in live foliage and bole wood. Tree twigs, branches, and bark constituted the most important plant sinks for both NO(3) (-) and NH(4) (+), together accounting for 25-50% of (15)N recovery for these ions, respectively. Forest floor and soil (15)N retention was small compared to previous studies; the litter layer and well-humified O horizon were important sinks for NH(4) (+) (9%) and NO(3) (-) (7%). Retention by canopy elements (surfaces of branches and boles) provided a substantial sink for N that may have been through physico-chemical processes rather than by N assimilation as indicated by poor recoveries in wood tissues. Canopy retention of precipitation-borne N added in this particular manner may thus not become plant-available N for several years. Despite a large canopy N retention potential in this forest, C sequestration into new wood growth as a result of the N addition was only ~16 g C m(-2) year(-1) or about 10% above the current net annual C sequestration for this site.

摘要

在氮素受限的生态系统中,氮沉降施肥可能会促进植物生长,进而影响碳固存。在许多氮沉降 - 碳固存实验中,氮直接添加到土壤中,绕过了冠层过程,并且可能有利于土壤对氮的固定。为了了解增加的氮沉降对低肥力未管理森林的影响,并更好地模拟自然氮沉降过程,我们将18千克氮·公顷⁻¹·年⁻¹以溶解的硝酸铵形式直接添加到21公顷云杉 - 铁杉森林的冠层中。在两个0.3公顷的子样地中,添加的氮用¹⁵NH₄⁺或¹⁵NO₃⁻进行同位素标记(最终富集度为1%)。在生态系统各库中,我们分别回收了以¹⁵NH₄⁺和¹⁵NO₃⁻形式添加的¹⁵N的38%和67%。在植物生物量中可回收的¹⁵N中,只有3 - 6%在活叶和树干木材中被回收。树枝、小枝和树皮是NO₃⁻和NH₄⁺最重要的植物汇,分别占这些离子¹⁵N回收量 的25 - 50%。与之前的研究相比,林地和土壤中¹⁵N的保留量较少;枯枝落叶层和充分腐殖化的O层是NH₄⁺(9%)和NO₃⁻(7%)的重要汇。冠层元素(树枝和树干表面)的保留为氮提供了一个重要的汇,这可能是通过物理化学过程而非氮同化实现的,如木材组织中回收率较低所示。以这种特定方式添加的降水携带的氮在冠层中的保留可能在几年内都不会成为植物可利用的氮。尽管这片森林冠层对氮有很大的保留潜力,但由于添加氮导致新木材生长中的碳固存仅为约16克碳·米⁻²·年⁻¹,比该地点目前的年净碳固存高出约10%。

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