Photosynthesis, Yield, Nutrient Availability and Soil Properties after Biochar, Zeolites or Mycorrhizal Inoculum Application to a Mature Rainfed Olive Orchard

João Ilídio Lopes,Carlos M Correia,Margarida Arrobas,Manuel Ângelo Rodrigues,Cátia Brito,Sandra Martins,Luís Pinto,Alexandre Gonçalves,Soraia Raimundo,José Moutinho-Pereira

doi:10.3390/agriculture12020171

João Ilídio Lopes, Carlos M Correia + Show 8 more

Open Access

https://doi.org/10.3390/agriculture12020171

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Abstract

Soil conditioners and beneficial microorganisms are important tools that can be used to increase the sustainability of agro-systems. However, the high diversity of conditions where they can be applied may influence the results, which requires extensive field research. In this study, a field trial of four years was conducted in olive (Olea europaea L.) to assess the effect of biochar, zeolites and a commercial mycorrhizal inoculum in the photosynthetic performance, nutritional status of trees, olive yield and soil properties. The experimental design also included a fertilizer treatment with nitrogen (N), phosphorus (P), potassium (K) and boron (B), which nutrients were applied at 50 kg ha−1 of N, P2O5 and K2O and 2 kg ha−1 of B, and an untreated control. The mineral fertilizer treatment increased significantly the dry mass of pruning wood and the average olive yield by 21% over the control treatment. The mineral treatment increased plant N nutritional status, the most likely reason why the trees of this treatment performed better. Overall, the soil treatments had net photosynthetic rates similar to each other and higher than the control treatment, from the second year onwards. Biochar increased soil organic matter, as a result of the carbon (C) contained in the amendment itself, and probably by stimulating soil biological activity. Biochar and zeolites did not improve the productive performances of the tress, but increased the soil cation exchange capacity (CEC), which can benefit the system in the long-term. Mycorrhizal fungi did not show any benefit for soil or plants, which could mean that mycorrhization was not established, or their effect was not better than that of native microorganisms. In the conditions of this study, the interest of using commercial mycorrhizal fungi in a mature olive orchard seems to be low.

Highlights

IntroductionIn the Northeast Portugal, soils can be a breaking point in the increasing intensification of cropping, due to their low natural fertility
Considering the concentration of other minerals in the leaves, usually within the sufficiency ranges, we may infer that the effect of treatments on trees’ performance can be mainly attributed to N. This soil has a low content of organic matter and clay minerals, which are the soil constituents responsible for the largest soil N reserves, organic matter holding the organic N fraction and clay minerals interlamellar NH4 +, with a role in balancing the negative charges resulting from the isomorphic substitutions of Si4+ by
The mineral fertilization improved the performance of trees, mainly due to the supply of N, in a soil of reduced natural N availability, due to low level of organic matter and

Summary

Introduction

In the Northeast Portugal, soils can be a breaking point in the increasing intensification of cropping, due to their low natural fertility. They are shallow, due to the sloping relief and continuous erosion, and have low levels of organic matter [3,4]. Farmers tend to maintain crop productivity mainly by using chemical fertilizers. These products are often associated with environmental contamination, neamely water eutrophication and greenhouse gas emissions into the atmosphere [6] and shoul be reduced as much as possible. Several materials have been proposed to be a complement or an alternative to the use of fertilizers, as they can improve physical, chemical and/or biological soil properties and reduce the harmful effects of fertilization on the environment

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