Effect of precipitation frequency on litter decomposition of three annual species (Setaria viridis, Artemisia sacrorum, and Chenopodium acuminatum) in a semi-arid sandy grassland of northeastern China

IF 1.9 4区 农林科学 Q3 ENVIRONMENTAL SCIENCES
Yongqing Luo, Jing Zhou, Xiangfei Yue, Ji-Dong Ding
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引用次数: 1

Abstract

Abstract Annual total precipitation typically fails to predict litter decomposition rates, especially in semi-arid regions, where precipitation frequency (PF) significantly affects decomposition. We hypothesized that low PF would decrease decomposition rates. We performed a litterbag decomposition experiment with litter of three annual species at three depths (aboveground litter, litter at 0–10 and 10–20 cm below the surface). We used the same total amount (280 mm), but three precipitation frequencies (PF1, 10 mm every 5 days; PF2, 20 mm every 10 days; PF3, 40 mm every 20 days) during the growing season. We measured the remaining mass, carbon (C) content, nitrogen (N) content, C:N ratio, and C and N losses of each species at the three positions. Litter decomposition and the C and N dynamics were influenced by species, depth, and PF. Low PF significantly decreased litter decomposition (mass loss rates of 49.7, 49.1, and 41.2% for PF1, PF2, and PF3, respectively). This effect interacted with placement-depth but not with species. This interaction also existed for C and N dynamics except for the N loss rate. The influence of PF on C loss mainly resulted from its effect on mass loss, whereas N loss was not affected by PF. Our results highlight the importance of PF for litter decomposition in a semi-arid region. The relationship between PF and litter decomposition provides a theoretical basis for regional carbon-cycle models and carbon budget predictions. Our results also suggest that non-graminaceous species showed higher potential than grasses for improving soil carbon in semi-arid sandy grasslands due to faster decomposition rates, especially below ground.
降水频率对东北半干旱沙质草地3种一年生植物(绿尾草、沙蒿和尖藜)凋落物分解的影响
年总降水量通常不能预测凋落物分解速率,特别是在降水频率(PF)显著影响凋落物分解的半干旱区。我们假设低PF会降低分解率。对3种一年生植物凋落物在3个深度(地上凋落物、0 ~ 10 cm凋落物和10 ~ 20 cm凋落物)进行了凋落袋分解试验。我们使用相同的总量(280 mm),但有三个降水频率(PF1,每5天10 mm;PF2,每10天20mm;PF3,每20天施用40 mm)。测定了各树种在三个位置的剩余质量、碳(C)含量、氮(N)含量、C:N比和C、N损失。凋落物分解和C、N动态受物种、深度和PF的影响,低PF显著降低了凋落物分解(PF1、PF2和PF3的质量损失率分别为49.7%、49.1%和41.2%)。这种效应与位置深度相互作用,但与物种无关。除氮损失率外,碳氮动力学也存在这种相互作用。PF对凋落物C损失的影响主要来自于其对质量损失的影响,而N损失不受PF的影响。森林植被与凋落物分解的关系为区域碳循环模型和碳收支预测提供了理论依据。研究结果还表明,在半干旱的沙质草地上,非禾本科植物比禾本科植物具有更高的提高土壤碳的潜力,因为它们的分解速度更快,特别是在地下。
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来源期刊
Arid Land Research and Management
Arid Land Research and Management 环境科学-环境科学
CiteScore
3.80
自引率
7.10%
发文量
23
审稿时长
9 months
期刊介绍: Arid Land Research and Management, a cooperating journal of the International Union of Soil Sciences , is a common outlet and a valuable source of information for fundamental and applied research on soils affected by aridity. This journal covers land ecology, including flora and fauna, as well as soil chemistry, biology, physics, and other edaphic aspects. The journal emphasizes recovery of degraded lands and practical, appropriate uses of soils. Reports of biotechnological applications to land use and recovery are included. Full papers and short notes, as well as review articles and book and meeting reviews are published.
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