Inclusion of Leguminous Green Manures Enhances Crop Biomass, Nutrient Uptake, Soil Phosphorus Dynamics and Bioavailability

Journal of Sustainable Agriculture and Environment Pub Date : 2024-12-18 DOI:10.1002/sae2.70035

P. V. Nguyen, L. M. Condron, Z. P. Simpson, R. W. McDowell

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引用次数: 0

Abstract

Introduction

In agroecosystems, phosphorus (P) applications over a long time have accumulated in soil as legacy P. This environmental challenge can be an agronomic opportunity as soil legacy P could be recovered in cropping systems using practices such as green manuring. We hypothesised that, at moderate soil available P levels, plant-soil interactions under green manures can mobilise soil legacy P and promote cereal crop P uptake and growth.

Methods

Alongside a fallow treatment, three green manure treatments that included two legume treatments (narrow-leaf lupin [Lupinus angustifolius], pea [Pisum sativum L.]) and one cereal treatment (wheat [Triticum aestivum] and barley [Hordeum vulgare]) were rotated with the main crops of wheat and barley in two phases on a pumice soil (27 mg kg⁻¹ Olsen P) in a microcosm experiment. Plant roots and shoots and end-of-experiment soil samples were collected for analysis.

Results

Over two crop rotations, inclusion of narrow-leaf lupin and pea green manures significantly increased main crop biomass (27%–35%) and P uptake (15%–29%) relative to control, while the cereal green manure decreased the following crop's yield (−13%) and P uptake (−19%). Relative to fallow, microbial biomass P and soil organic P pools increased under all green manures yet total inorganic P decreased under leguminous green manures. This depletion (35 mg P kg⁻¹) under narrow-leaf lupin was equivalent to ~47 kg P ha⁻¹. Phosphatase enzyme activities relevant to P cycling increased particularly under leguminous green manure treatments.

Conclusions

Leguminous green manures such as narrow-leaf lupin could mobilise soil P to crops in field conditions, suggesting that drawdown of soil legacy P while sustaining crop yield can be tenable.

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添加豆科绿肥可提高作物生物量、养分吸收、土壤磷动态和生物有效性

在农业生态系统中，磷(P)的施用长期积累在土壤中作为遗留磷。这一环境挑战可能是一个农艺学机遇，因为土壤遗留磷可以通过绿色施肥等做法在种植系统中恢复。我们假设，在土壤有效磷水平适中的情况下，绿肥处理下的植物-土壤相互作用可以调动土壤遗留磷，促进谷类作物对磷的吸收和生长。方法在浮石土壤（27 mg kg−1 Olsen P）上，以小麦和大麦为主要作物，分两期轮作3个绿肥处理，其中2个豆科处理（窄叶扁豆[Lupinus angustifolius]、豌豆[Pisum sativum L.]）和1个谷类处理（小麦[Triticum aestivum]和大麦[Hordeum vulgare]），同时进行休耕处理。收集植物根、芽和试验结束后的土壤样品进行分析。结果在两个轮作中，与对照相比，施用窄叶豆豆和豌豆绿肥显著提高了主作物生物量（27% ~ 35%）和磷素吸收量（15% ~ 29%），而施用谷类绿肥使次作物产量（- 13%）和磷素吸收量（- 19%）降低。与休耕相比，所有绿肥处理下微生物量磷和土壤有机磷库增加，豆科绿肥处理下总无机磷减少。这种损耗（35 mg磷kg - 1）在窄叶扁豆下相当于~47 kg磷ha - 1。与磷循环有关的磷酸酶活性在豆科绿肥处理下显著增加。结论豆科绿肥如窄叶扁豆能在田间条件下向作物调动土壤磷，表明在保持作物产量的同时减少土壤遗留磷是可行的。

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来源期刊

Journal of Sustainable Agriculture and Environment

CiteScore

2.60

自引率

0.00%

发文量