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Low 15N Natural Abundance in Shoot Tissue of Brachiaria humidicola Is an Indicator of Reduced N Losses Due to Biological Nitrification Inhibition (BNI)

机译：臂状臂菜的芽组织中低15N的自然丰度是由于生物硝化抑制（BNI）导致氮损失减少的指标

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The tropical forage grass Brachiaria humidicola (Bh) suppresses the activity of soil nitrifiers through biological nitrification inhibition (BNI). As a result, nitrate (

{NO}_{3}^{-}

) formation and leaching are reduced which is also expected to tighten the soil nitrogen (N) cycle. However, the beneficial relationship between reduced

{NO}_{3}^{-}

losses and enhanced N uptake due to BNI has not been experimentally demonstrated yet. Nitrification discriminates against the ¹⁵N isotope and leads to ¹⁵N depleted

{NO}_{3}^{-}

, but ¹⁵N enriched

{NH}_{4}^{+}

in soils. Leaching of ¹⁵N depleted

{NO}_{3}^{-}

enriches the residual N pool in the soil with ¹⁵N. We hypothesized that altered nitrification and

{NO}_{3}^{-}

leaching due to diverging BNI magnitudes in contrasting Bh genotypes influence soil ¹⁵N natural abundance (δ¹⁵N), which in turn is reflected in distinct δ¹⁵N in Bh shoot biomass. Consequently, high BNI was expected to be reflected in low plant δ¹⁵N of Bh. It was our objective to investigate under controlled conditions the link between shoot value of δ¹⁵N in several Bh genotypes and leached

{NO}_{3}^{-}

amounts and shoot N uptake. Additionally, plant ¹⁵N and N% was monitored among a wide range of Bh genotypes with contrasting BNI potentials in field plots for 3 years. We measured leaf δ¹⁵N of young leaves (regrown after cutback) of Bh and combined it with nitrification rates (NRs) of incubated soil to test whether there is a direct relationship between plant δ¹⁵N and BNI. Increased leached

{NO}_{3}^{-}

was positively correlated with higher δ¹⁵N in Bh, whereas the correlation between shoot N uptake and shoot δ¹⁵N was inverse. Field cultivation of a wide range of Bh genotypes over 3 years decreased NRs in incubated soil, while shoot δ¹⁵N declined and shoot N% increased over time. Leaf δ¹⁵N of Bh genotypes correlated positively with NRs of incubated soil. It was concluded that decreasing plant δ¹⁵N of Bh genotypes over time reflects the long-term effect of BNI as linked to lower

{NO}_{3}^{-}

formation and reduced

{NO}_{3}^{-}

leaching. Accordingly, a low δ¹⁵N in Bh shoot tissue verified its potential as indicator of high BNI activity of Bh genotypes.

机译：热带饲草Bracharia Humicola（Bh）通过生物硝化抑制作用（BNI）抑制土壤硝化剂的活性。结果，硝酸盐（

< mtext> NO 3-）形成和浸出减少，这也有望减少加强土壤氮素循环。但是，减少的BNI导致的 NO3-损失和增强的N吸收并没有经过实验证明。硝化作用会歧视15 N同位素，并导致 15 N耗尽的 否3-，但15 N丰富了 NH4+在土壤中。15 N的沥滤耗尽了 < msubsup> NO3-富集剩余的N库在15 N的土壤中。我们假设改变了硝化作用和 <由于BNI基因型的差异影响了BNI大小的差异，导致mtext> NO 3-浸出土壤15 N的自然丰度（δ 15 N），反过来又反映在Bh芽生物量中独特的δ 15 N。因此，预计高BNI会反映在低Bh的植物δ 15 N中。我们的目标是在受控条件下研究几种Bh基因型中δ 15 N的芽值与浸出的

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期刊名称 other
作者
Hannes Karwat; Konrad Egenolf; Jonathan Nuñez; Idupulapati Rao; Frank Rasche; Jacobo Arango; Danilo Moreta; Ashly Arevalo; Georg Cadisch;
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作者单位

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年(卷),期 -1(9),-1
年度 -1
页码 2383
总页数 9
原文格式 PDF
正文语种
中图分类
关键词
δsup15/supN isotopic discrimination sup15/supN:sup14/supN fractionation soil microbial nitrification N uptake N assimilation nitrate leaching soil incubation;

机译：δsup 15 / sup N同位素判别;sup 15 / sup N：sup 14 / sup N分馏;土壤微生物硝化;氮吸收;氮同化;硝酸盐浸出;土壤培养;

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外文文献
专利

1. Nitrate reductase activity in leaves as a plant physiological indicator of in vivo biological nitrification inhibition by Brachiaria humidicola [J] . Karwat Hannes, Sparke Marc-Andre, Rasche Frank, Plant Physiology and Biochemistry . 2019,第期

机译：叶片作为植物生理学指标的硝酸还原酶活性在体内生物硝化抑制因胃乳革康菌
2. Biological nitrification inhibition activity in a soil-grown biparental population of the forage grass, Brachiaria humidicola [J] . Nunez Jonathan, Arevalo Ashly, Karwat Hannes, Plant and Soil . 2018,第1a2期

机译：Brachiaria Humidicola的土壤生长前养种群中生物硝化抑制活性
3. Biological nitrification inhibition by Brachiaria humidicola roots varies with soil type and inhibits nitrifying bacteria, but not other major soil microorganisms [J] . Gopalakrishnan Subramaniam, Watanabe Takashi, Pearse Stuart J., Soil Science and Plant Nutrition . 2009,第5期

机译：臂锈菌根对生物硝化的抑制作用随土壤类型而变化，并抑制硝化细菌，但对其他主要土壤微生物没有抑制作用
4. Developing methods to evaluate phenotypic variability in Biological Nitrification Inhibition (BNI) capacity of Brachiaria grasses [C] . Jacobo Arango, Danilo Moreta, Jonathan Nunez, International Grassland Congress . 2013

机译：培养方法以评价Brachiaria草的生物硝化抑制中的表型变异性
5. A paradigm shift towards low-nitrifying production systems: the role of biological nitrification inhibition (BNI) [O] . G. V. Subbarao, K. L. Sahrawat, K. Nakahara, 2013

机译：向低硝化生产系统的转变：生物硝化抑制作用（BNI）
6. Biological nitrification inhibition activity in a soil-grown biparental population of the forage grass, Brachiaria humidicola [O] . Jonathan Nuñez, Ashly Arevalo, Hannes Karwat, 2018

机译：Brachiaria Humidicola的土壤生长奶嘴中生物硝化抑制活性

Low 15N Natural Abundance in Shoot Tissue of Brachiaria humidicola Is an Indicator of Reduced N Losses Due to Biological Nitrification Inhibition (BNI)

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