Long-term field fertilization experiment with energy willow (Salix sp.) − Elemental composition and chlorophyll fluorescence in the leaves

Q4 Agricultural and Biological Sciences

Agrokemia es Talajtan Pub Date : 2018-06-01 DOI:10.1556/0088.2018.67.1.7

L. Simon, M. Makádi, G. Vincze, Z. Uri, Katalin Irinyiné Oláh, L. Zsombik, Szabolcs Vígh, Béla Szabó

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引用次数: 2

Abstract

A small-plot long-term field fertilization experiment was set up in 2011 with willow (Salix triandra x Salix viminalis ’Inger’) grown as an energy crop in Nyíregyháza, Hungary. The brown forest soil was treated three times (in June 2011, May 2013, May 2016) with municipal biocompost (MBC), municipal sewage sludge compost (MSSC) or willow ash (WA), and twice (June 2011, May 2013) with rhyolite tuff (RT). In late May – early June 2016 urea (U) and sulphuric urea (SU) fertilizers were also applied to the soil as top-dressing (TD). These fertilizers and amendments were also applied to the soil in 2016 in the combinations; MBC+SU, RT+SU, WA+SU and MSSC+WA. All the treatments were repeated four times. In July 2016 the highest nitrogen concentrations in willow leaves were measured in the U (3.47 m/m%) and SU (3.01 m/m%) treatments, and these values were significantly higher than the control (2.46 m/m%). An excess of nitrogen considerably reduced the Zn uptake of the leaves, with values of 39.5 μg g-1 in the U treatment, 53.4 μg g-1 in the SU treatment, and 63.5 μg g-1 in the control. All other amendments or TDs, except for WA, enhanced the specific potassium concentrations in willow leaves compared to the control. No significant quantities of toxic elements (As, Ba, Cd, Pb) were transported from soil amendments or TDs to the willow leaves. In July 2016 the most intensive leaf chlorophyll fluorescence was observed in the MSSC and MSSC+WA treatments.

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能量柳（Salix sp.）长期田间施肥试验−叶片中的元素组成和叶绿素荧光

2011年，在匈牙利Nyíregyháza，用柳树（Salix triandra x Salix viminalis‘Inger’）作为能源作物进行了一项小区长期田间施肥试验。用城市生物堆肥（MBC）、城市污水污泥堆肥（MSSC）或柳灰（WA）处理棕色森林土壤三次（2011年6月、2013年5月、2016年5月），用流纹岩凝灰岩（RT）处理两次（2011月、2013月）。2016年5月下旬至6月初，还向土壤施用了尿素（U）和硫酸尿素（SU）肥料作为追肥（TD）。这些肥料和改良剂也在2016年的组合中应用于土壤；MBC+SU、RT+SU、WA+SU和MSSC+WA。所有的治疗都重复了四次。2016年7月，U（3.47m/m%）和SU（3.01m/m%）处理的柳树叶片中氮浓度最高，这些值显著高于对照（2.46m/m%）。过量的氮显著降低了叶片对锌的吸收，U处理为39.5μg g-1，SU处理为53.4μg g-2，对照为63.5μg g g-3。与对照相比，除WA外，所有其他改良剂或TDs都提高了柳叶中的特定钾浓度。土壤改良剂或TDs没有将大量的有毒元素（As、Ba、Cd、Pb）输送到柳叶上。2016年7月，在MSSC和MSSC+WA处理中观察到最强烈的叶片叶绿素荧光。

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来源期刊

Agrokemia es Talajtan Agricultural and Biological Sciences-Soil Science

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： The journal publishes original papers with English summaries, reports on conferences, book reviews, contributed by Hungarian and foreign authors in the field of soil science, agricultural chemistry, soil microbiology and soil biochemistry.Papers and reviews only in Hungarian.