Title: Enhancing Sustainability in Intensive Dill Cropping: Comparative Effects of Biobased Fertilizers vs. Inorganic Commodities on Greenhouse Gas Emissions, Crop Yield, and Soil Properties |
Authors: Pérez Murcia, Mª Dolores Martínez Sabater, Encarnación Andreu Rodríguez, Fco. Javier Orden, Luciano Agulló Ruiz, Enrique Sáez Tovar, Jose Antonio Martínez Tomé, Juan Bustamante Muñoz, María de los Ángeles Moral, Raúl |
Editor: MDPI |
Department: Departamentos de la UMH::Agroquímica y Medio Ambiente |
Issue Date: 2022-09 |
URI: https://hdl.handle.net/11000/34193 |
Abstract:
The treatment and valorization of organic solid waste has become a promising alternative
to increase intensive crop productivity while reducing its environmental impact. Currently, reusing
improved organic waste as novel biofertilizers is a vital tool to adapt semiarid agricultural regions
to climate change, but this has been scarcely studied in aromatic crops. The present study aims
to assess the greenhouse gas emissions, soil properties, and crop yield of a dill crop using a drip
irrigation system with a normalized N application rate of 160 kg N ha1. We compare eight different
fertilizing scenarios grouped into organic-based (manures and compost) and inorganic-based inputs
(NPK commodities and slow-release formulations). GHG fluxes were measured during the 57-day
fertigation period using static chambers. Key soil properties were measured previous to fertilizer
applications and at harvest, coinciding with crop yield estimations. An increase in soil organic
carbon was observed with stabilized organic treatments at 0–20 cm soil depth. The results show
that stabilized organic-based materials lowered NO3
concentrations in dill biomass more than
synthetic fertilizers, producing similar yields to those with synthetic fertilizers. In general, N2O
emissions were positively affected by the treatments. Local specific emission factors for N2O were
determined (0.08%), which were substantially lower than the default value (0.51%) of IPCC. The
cumulative CO2 emissions were high in all the organic scenarios compared to the control treatment
(277 kg C-CO2 ha1), probably due to differences in labile organic C contents. Organic-based
treatments showed multiple positive effects on crop quality, crop yields, andGHGmitigation potential.
The use of organic amendments is an optimized N fertilizing strategy to promote circular economy
and sustainability.
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Keywords/Subjects: Anethum graveolens L. organic amendments GHG drip irrigation |
Type of document: info:eu-repo/semantics/article |
Access rights: info:eu-repo/semantics/openAccess Attribution-NonCommercial-NoDerivatives 4.0 Internacional |
DOI: https://doi.org/10.3390/agronomy12092124 |
Appears in Collections: Artículos Agroquímica y Medio Ambiente
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