The Response of Soil Physicochemical Properties in the Hyrcanian Forests of Iran to Forest Fire Events

When forest fires occur, highly complex effects on soil properties and hydrological processes are activated. However, in countries such as Iran, these consequences are not widely studied and there is a lack of studies. Therefore, the main aim of this study was to investigate the effects of wildfire on soil quality characteristics in a representative forest area located in the Hyrcanian forests, specifically, in the Zarrinabad watershed of Sari. For this purpose, four different sites, including unburnt natural (UNF), burned natural (BNF), unburnt plantation (UPF), and burned plantation forests (BPF) were selected. Soil sampling was performed at each site using the random, systematic method at a depth from 0 to 30 cm. To investigate the effects of fire on physical and chemical properties indicators, 10 plots with dimensions of 0.5 x 0.5 m were placed at a distance of 1.5 m from each other at each site. Soil samples were transported to the laboratory and their physical and chemical properties were determined. The results showed that the percentage of sand, silt, aggregate stability, soil hydrophobicity, organic carbon, organic matter, soil total nitrogen, absorbable potassium and phosphorus, electrical conductivity, and pH, increased significantly when the soil surface is burned (p = 0.05). These findings demonstrate that forest fire effects in Iran must be considered as a key topic for land managers because soil properties and hydrological processes are drastically modified, and land degradation could be irreparably activated.Sari Agricultural Sciences and Natural Resources Universit

Impact of soil erosion and runoff on mountain slopes of Mediterranean agroecosystems

La degradación de suelos en los agroecosistemas mediterráneos implica una pérdida de utilidad actual y una reducción de sus funciones potenciales, tanto por procesos naturales, como aquellos especialmente inducidos e intensificados por las acciones humanas. Se evalúa el impacto de la erosión y escorrentía en diferentes tipos de uso del suelo (TUS): agrícola (olivar, almendro y cereal), bosque (Pinus halepensis y Pinus sylvestris), matorral, pastizal y tierras de cultivo abandonadas, en Sierra Nevada (SE España). Las parcelas cerradas de erosión-escorrentía con dos repeticiones fueron instaladas en las laderas en cada TUS, registrándose tasas de erosión y escorrentía durante 22 eventos lluviosos. De acuerdo con los resultados obtenidos en el marco del presente estudio, los TUS consistentes en P. halepensis y P. sylvestris minimizaron de forma significativa la erosión y escorrentía, en contraste con los suelos agrícolas abandonados. En relación a los TUS con actividad agrícola se determinó una mayor incidencia de la erosión en el olivar respecto al almendro y cereal. El matorral registró tasas de erosión y escorrentía intermedia entre los Pinus spp. y agrícolapastizal. En consecuencia, la alteración de la cubierta vegetal es crucial para interpretar la degradación de la productividad de los suelos, así como para planificar estrategias sostenibles con el objeto de mitigar los procesos de degradación del suelo en agroecosistemas mediterráneos.Land degradation in Mediterranean agroecosystems implies the loss of current utility and reduction of its potential functions, by both natural processes and those specifically induced and intensified by human actions. The impact of erosion and runoff on different land-use types (LUT): farmland (olive, almond and cereal), forest (Pinus halepensis and Pinus sylvestris), shrubland, grassland and abandoned farmland in Sierra Nevada (SE Spain) have been assessed. The erosion plots twice replicated were located on the slopes for each land-use type, monitoring the erosion and runoff rates for 22 rainfall events. According to the results of the present study the LUT consisting in P. halepensis and P. sylvestris significantly minimized soil erosion and runoff, in contrast to the abandoned farmland. In relation to farmland activity important impact of erosion has been found in olive plots than in almond and cereal. The shrubland generated intermediate erosion and runoff rates between Pinus trees and agriculture-grassland plots. Consequently, plant cover change is crucial in interpreting the productivity degradation of soils, as well as in planning sustainable strategies to mitigate soil degradation processes in Mediterranean agroecosystems.Este trabajo fue realizado en el marco de los proyectos de investigación “Procesos hidrológicos y erosivos y valoración de la biomasa y secuestro de carbono orgánico bajo diferentes usos del suelo en la cuenca agraria “El Salado”, Lanjarón (SE España) (RTA2007-00008-00-00)” y “Técnicas de agricultura de conservación en cultivos leñosos de secano y clima mediterráneo: implicaciones en la productividad sostenible, control de la erosión, mantenimiento de la biodiversidad edáfica y la calidad de los suelos (RTA2011-00007-00-00)”, ambos otorgados por el INIA y cofinanciado con fondos FEDER de la UE

Cover Crop Effects on Surface Runoff and Subsurface Flow in Rainfed Hillslope Farming and Connections to Water Quality

Surface runoff and subsurface flow patterns were monitored in hillside runoff plots in almond and olive orchards with soils covered with spontaneous plants over two hydrological years. The experimental runoff plots were located on the south flank of the Sierra Nevada (Lanjarón, SE Spain) at 580 m a.s.l. with an area of 40 m2 (10 m × 4 m). The surface and subsurface discharge were collected and measured at different soil depths (0, 5, 10, 25, and 50 cm), and the dissolved nutrient concentrations (NO3–N, NH4–N, PO4–P, and K) were determined. According to the findings, the subsurface flow pathways drained most of the rainfall water compared with surface runoff, which was affected by plant cover. The influence of rainfall intensity (I30) on surface runoff was more meaningful than that on subsurface flow. Throughout the monitoring period, the runoff coefficients at soil depths of 0, 5, 10, 25, and 50 cm averaged 0.04, 0.11, 0.14, 0.17, and 0.18, respectively. Subsurface flow was one of the dominant pathways for N and K loss, whereas P loss mainly occurred via surface runoff. Moreover, the concentrations in subsurface flow were higher than the recommended level for standard water quality for NO3–N, NH4–N, and PO4–P. Subsurface flow was the main route of dissolved nutrient delivery, making these nutrients available to the root systems of trees, where nutrient uptake is more likely to occur. Thus, by lessening surface runoff and encouraging surface vegetation coverage to facilitate the recycling of nutrients and buffer the rainfall’s impact on the soil surface, nutrient loss control can be achieved

Irrigation alternatives for avocado (Persea Americana Mill.) in the Mediterranean Subtropical region in the context of climate change: a review

Due to congenital features, avocado (Persea Americana Mill.) trees are substantial water users relative to other fruit trees. The current growing deficiency of water resources, especially in arid and semi-arid avocado-producing areas, has led to the demand for more sustainable water-saving measures. The objective of this review was to analyze the role of deficit irrigation as a strategy to face climate change and water scarcity through achieving efficiency, saving water, and maximizing the benefits that could be achieved at the level of the irrigated agricultural system. Particular attention is devoted to studies performed in the subtropical Mediterranean climate, in which irrigated avocado orchards are common. These studies analyzed irrigation demand, deficit irrigation, and determination of water status through physiological parameters, leading to possible sustainable irrigation programs for avocado in the context of water shortage scenarios. Through these insights, we conclude that under the current climatic circumstances with respect to available water resources, avocado farming requires sustainable resilience strategies to reduce irrigation water consumption without affecting the yield and quality of the fruits. Water stress inevitably affects the physiological processes that determine yield. Therefore, an admissible yield loss is required with smaller fruits and water savings made through deficit irrigation strategies. In addition, modern consumers tend to prefer foods based on sustainability, i.e., there is a high demand for socially responsible and environmentally friendly products

Conservation Agriculture as a Sustainable System for Soil Health: A Review

Soil health is a term used to describe the general state or quality of soil, and in an agroecosystem, soil health can be defined as the ability of the soil to respond to agricultural practices in a way that sustainably supports both agricultural production and the provision of other ecosystem services. Conventional agricultural practices cause deterioration in soil quality, increasing its compaction, water erosion, and salinization and decreasing soil organic matter, nutrient content, and soil biodiversity, which negatively influences the productivity and long-term sustainability of the soil. Currently, there are many evidences throughout the world that demonstrate the capability of conservation agriculture (CA) as a sustainable system to overcome these adverse effects on soil health, to avoid soil degradation and to ensure food security. CA has multiple beneficial effects on the physical, chemical, and biological properties of soil. In addition, CA can reduce the negative impacts of conventional agricultural practices on soil health while conserving the production and provision of soil ecosystem services. Today, agricultural development is facing unprecedented challenges, and CA plays a significant role in the sustainability of intensive agriculture. This review will discuss the impact of conservation agricultural practices on soil health and their role in agricultural sustainability

Can Sustained Deficit Irrigation Save Water and Meet the Quality Characteristics of Mango?

Mango is one of the most cultivated tropical fruits worldwide and one of few drought-tolerant plants. Thus, in this study the effect of a sustained deficit irrigation (SDI) strategy on mango yield and quality was assessed with the aim of reducing irrigation water in mango crop. A randomized block design with four treatments was developed: (i) full irrigation (FI), assuring the crop’s water needs, and three levels of SDI receiving 75%, 50%, and 33% of irrigation water (SDI75, SDI50, and SDI33). Yield, morphology, color, titratable acidity (TA), total soluble solids (TSS), organic acids (OA), sugars, minerals, fiber, antioxidant activity (AA), and total phenolic content (TPC) were analyzed. The yield was reduced in SDI conditions (8%, 11%, and 20% for SDI75, SDI50, and SDI33, respectively), but the irrigation water productivity was higher in all SDI regimes. SDI significantly reduced the mango size, with SDI33 generating the smallest mangoes. Peel color significantly changed after 13 days of ripening, with SDI75 being the least ripe. The TA, AA, and citric acid were higher in SDI75, while the TPC and fiber increased in all SDI levels. Consequently, SDI reduced the mango size but increased the functionality of samples, without a severe detrimental effect on the yield

Soil-management strategies in organic almond orchards: implications for soil rehabilitation and nut quality

The implementation of soil conservation measures is essential to promote sustainable crop production in the Mediterranean region. In an organic rainfed almond orchard located in Lanjarón (SE, Spain), a study carried out during 2016–2021 analyzed the influence of different soil management strategies (SMSs) (TT, traditional tillage; NT, no tillage; VF, cover of Vicia faba; VS, cover of Vicia sativa; VS-VE, cover of Vicia sativa and Vicia ervilia) on some selected physical (bulk density, available water content, and aggregate stability), chemical (pH, electrical conductivity, soil-organic content, N, P, K, and micronutrients), and biological (microbial activity) soil properties, relevant to soil health, and their implications for yield and almond quality (physical and chemical). Our results showed that the SMS with legume cover improves soil properties, which had a favorable effect on soil health. The mean almond yield was not significantly affected by the SMS applied, being 315.9, 256.4, 229.1, 212.5, and 176.6 kg ha−1 year−1 for TT, VF, VS-VE, VS, and NT, respectively. Regarding the almond nut quality, the strategy based on implementation of legume cover increased the almond antioxidant activity and the total polyphenol content, which would improve their nutritional value. Here we showed how the use of sustainable SMSs improved the soil properties compared to traditional tillage in rainfed organic almonds, allowing the long-term sustainability of agroecosystems while at the same time obtaining higher nutritional quality almonds

Effect of the Infiltrator Device on soil moisture in olive orchards of semi‐arid Mediterranean regions

En las regiones semiáridas, los períodos de sequía representan uno de los mayores desafíos para la agricultura. El Hidroinfiltrador o Dispositivo Infiltrador (DI) (Patente Española No. ES 2793448 A1) ayuda a reestablecer el equilibrio hídrico de los suelos. El DI tiene forma cilíndrica que permite su colocación vertical, enterrado parcialmente en el suelo alrededor de los árboles de cultivo, facilitando así la infiltración profunda de agua de lluvia, riego o escorrentía. Es especialmente útil en zonas áridas y semiáridas afectadas por largos períodos de sequía y fuertes tormentas. En una finca experimental de olivar ubicada en Baena (Córdoba), se instalaron 90 DI en olivos, dejando 10 árboles como control (sin DI). Los suelos de esta finca presentan una baja tasa de infiltración, lo cual reduce la eficacia de la precipitación y aumenta significativamente el riesgo de erosión hídrica. Para analizar los efectos del DI, se simuló una lluvia torrencial en la que se pasaron 600 litros de agua a través del DI instalado en un olivo 3 años antes del experimento. Mediante el método geofísico de Tomografía Eléctrica de Resistividad (ERT en sus siglas en inglés) y análisis directos de muestras de suelo tanto in situ como en laboratorio, se observó un considerable aumento de la humedad del suelo donde había DI. En comparación con los olivos control (sin DI), la humedad casi se triplicó gracias a la rápida penetración del agua en el suelo, evitando así la escorrentía y la erosión hídrica. Además, se registró un incremento del 211% en la producción de aceitunas y un aumento del 177% en el rendimiento graso. Los perfiles ERT mostraron que el agua que penetra en el suelo se acumula en la zona de raíces del olivo, alejada de la superficie, favorecida su distribución por las rutas preferentes creadas por las raíces. Esto evita una evaporación rápida durante las altas temperaturas de primavera y verano. En este estudio, se muestra cómo el uso del sistema de recolección de agua de lluvia con DI representa una mejora significativa en la gestión de los escasos recursos hídricos provocados por el cambio climático. Además, proporciona beneficios agronómicos y ambientales para los sistemas agrícolas mediterráneos de secano

EUSEDcollab: a network of data from European catchments to monitor net soil erosion by water

As a network of researchers we release an open-access database (EUSEDcollab) of water discharge and suspended sediment yield time series records collected in small to medium sized catchments in Europe. EUSEDcollab is compiled to overcome the scarcity of open-access data at relevant spatial scales for studies on runoff, soil loss by water erosion and sediment delivery. Multi-source measurement data from numerous researchers and institutions were harmonised into a common time series and metadata structure. Data reuse is facilitated through accompanying metadata descriptors providing background technical information for each monitoring station setup. Across ten European countries, EUSEDcollab covers over 1600 catchment years of data from 245 catchments at event (11 catchments), daily (22 catchments) and monthly (212 catchments) temporal resolution, and is unique in its focus on small to medium catchment drainage areas (median=43km2, min=0.04km2, max=817km2) with applicability for soil erosion research. We release this database with the aim of uniting people, knowledge and data through the European Union Soil Observatory (EUSO)

Future of Irrigation in Agriculture in Southern Europe

Water is the most limiting natural resource in many Mediterranean areas of southern Europe, and this, together with the actual scenario of climate change (CC), promotes a framework of uncertainty and creates major challenges concerning the sustainability and viability of the current agro-ecosystems [...