The Decomposition Dynamics and Substrate Component Potential of Biomass from the Seagrass Posidonia oceanica (L.) Delile

IF 3.1 3区 农林科学 Q1 HORTICULTURE
Giandomenico Amoroso, Alessia Cozzolino, Mohamed Idbella, Giuseppina Iacomino, R. Motti, G. Bonanomi
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Abstract

Posidonia oceanica, a Mediterranean Sea seagrass, generates significant litter debris in coastal regions, adversely affecting tourism. To manage this debris, we explored two strategies: (i) promoting in situ decomposition by introducing ligninolytic microbes from forest microbiomes and (ii) utilizing P. oceanica debris as a substrate for ornamental and horticultural species. To achieve this goal, we conducted a one-year experiment using litter bags in mesocosms that simulate in situ conditions, evaluating the second strategy with different application rates (10%, 30%, 50%, and 100%) of fresh and decomposed P. oceanica debris mixed with peat or soil, with or without mineral fertilizer. The results revealed the resistance of P. oceanica necromass to decomposition; in fact, the introduction of forest microbiomes led to a major decomposition rate, albeit with constrained practical applicability. Utilizing P. oceanica debris as a substrate without fertilizer resulted in a modest growth response relative to the application rate, particularly accentuated in horticultural species compared to ornamental ones. Mineral fertilizer alleviated adverse effects at lower application rates; however, a notable decline in growth was observed at the 100% application rate. At application rates of 10% and 30%, certain crops demonstrated improved growth compared to the control. In summary, our study suggests the potential use of raw P. oceanica debris as a growth substrate within the 10% to 50% dosage range.
海草 Posidonia oceanica (L.) Delile 生物质的分解动力学和底质成分潜力
地中海海草 Posidonia oceanica 会在沿海地区产生大量垃圾碎片,对旅游业造成不利影响。为了管理这些垃圾,我们探索了两种策略:(i) 通过引入森林微生物群中的木质素分解微生物来促进原地分解;(ii) 利用海草垃圾作为观赏和园艺物种的基质。为了实现这一目标,我们使用垃圾袋在模拟原地条件的中型实验箱中进行了为期一年的实验,评估了第二种策略,即在泥炭或土壤中混合不同比例(10%、30%、50% 和 100%)的新鲜和腐烂的大洋杉碎屑,并添加或不添加矿物肥料。结果表明,大洋白皮松碎屑对分解具有抵抗力;事实上,引入森林微生物群可提高分解率,但实际应用受到限制。在不施肥的情况下,利用大洋洲褐藻碎屑作为基质会导致相对于施肥量的适度生长反应,与观赏物种相比,园艺物种的反应尤为明显。在施肥量较低时,矿物肥料可减轻不利影响;但在施肥量达到 100%时,生长明显下降。施肥量为 10% 和 30% 时,某些作物的生长情况比对照组有所改善。总之,我们的研究表明,在 10%-50%的施用量范围内,未加工的大洋锦鲤碎屑有可能被用作生长基质。
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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