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

Response of essential-oil yield of aromatic and medicinal plants to different harvesting strategies

The demand for aromatic and medicinal plants (AMPs) is growing worldwide, and most of them are from the wild collection. Today there is a consensus that for industrial purposes the AMPs must be cultivated. Many studies have shown the importance of the collection strategy used to guarantee the plant regeneration, and soil protection against erosion process in mountainous areas in the Mediterranean region. In this work, during three-year monitoring period we compared in four AMPs two harvest strategies by cutting biomass in 25% (BHI25) and 50% (BHI50) of oregano (Origanum bastetanum L.), lavender (Lavandula lanata L.); sage (Salvia lavandulifolia V.); and santolina (Santolina rosmarinifolia L.) in order to assess their effect on essential-oil content, and to be consistent with both plant and soil conservation in Mediterranean steeply sloping areas. The experimental plots were located in Lanjarón (Granada, SE Spain), on a 20% slope. According to the findings the strategy BHI50 of fresh herb of oregano, lavender, sage, and santolina produced essential-oil yield of 13.2 ± 1.74, 17.3 ± 1.69, 9.7 ± 5.21, and 10.8 ± 2.00 L·ha-1, respectively. Since significant differences were found between BHI25 and BHI50 strategies for harvest and distillation of aromatic plants, we recommend a rational harvest, leaving the 50% of the plant biomass in the field to avoid the soil degradation. In addition, with this rational harvest strategy encourages the sustainable AMP cultivation without significant alterations for essential-oil yields, and at the same time guaranteeing the regrowth, and conservation of them in its habitat. Therefore, encouragement local decision-making measures regarding environmental compatibility, social acceptability and economic viability in land use and management will be crucial. Otherwise, the inappropriate harvest of aromatic shrubs in mountain areas compromises land conservation.The demand for aromatic and medicinal plants (AMPs) is growing worldwide, and most of them are from the wild collection. Today there is a consensus that for industrial purposes the AMPs must be cultivated. Many studies have shown the importance of the collection strategy used to guarantee the plant regeneration, and soil protection against erosion process in mountainous areas in the Mediterranean region. In this work, during three-year monitoring period we compared in four AMPs two harvest strategies by cutting biomass in 25% (BHI25) and 50% (BHI50) of oregano (Origanum bastetanum L.), lavender (Lavandula lanata L.); sage (Salvia lavandulifolia V.); and santolina (Santolina rosmarinifolia L.) in order to assess their effect on essential-oil content, and to be consistent with both plant and soil conservation in Mediterranean steeply sloping areas. The experimental plots were located in Lanjarón (Granada, SE Spain), on a 20% slope. According to the findings the strategy BHI50 of fresh herb of oregano, lavender, sage, and santolina produced essential-oil yield of 13.2 ± 1.74, 17.3 ± 1.69, 9.7 ± 5.21, and 10.8 ± 2.00 L·ha-1, respectively. Since significant differences were found between BHI25 and BHI50 strategies for harvest and distillation of aromatic plants, we recommend a rational harvest, leaving the 50% of the plant biomass in the field to avoid the soil degradation. In addition, with this rational harvest strategy encourages the sustainable AMP cultivation without significant alterations for essential-oil yields, and at the same time guaranteeing the regrowth, and conservation of them in its habitat. Therefore, encouragement local decision-making measures regarding environmental compatibility, social acceptability and economic viability in land use and management will be crucial. Otherwise, the inappropriate harvest of aromatic shrubs in mountain areas compromises land conservation

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

Análisis espacio-temporal de la regeneración en el pinsapar de Grazalema: factores implicados

Se estudia el comportamientos espacial y temporal de la regeneración en el pinsapar de Grazalema, considerando como componentes independientes la fase de plántula y la fase de regenerado consolidado o a la espera. Se analiza el comportamiento espacio-temporal de los diferentes componentes del regenerado en relación con las variables meteorológicas y la estructura del dosel arbóreo. Se estudian los datos de siete inventarios realizados entre los años 1997 y 2007 en parcelas permanentes del pinsapar. Como factores influyentes se analizan el comportamiento meteorológico de los años previos, las características estructurales de la masa adulta, y el efecto de la exclusión de los herbívoros en parcelas malladas. Los resultados ponen de manifiesto que la dinámica del regenerado en el pinsapar comprende sucesos con ritmos temporales y factores espaciales diferentes : las primeras etapas de la regeneración, desde la floración hasta el establecimiento inicial de las plántulas, presentan una gran variabilidad interanual y una alta dependencia de los factores meteorológicos, mientras el regenerado a la espera de mayor tamaño se presenta como un componente más estable en el tiempo y más ligado a las características del dosel arbóreo. El análisis de la exclusión del herbivorismo no ha arrojado resultados concluyentes

A forest simulation approach using weighted Voronoi diagrams. An application to Mediterranean fir Abies pinsapo Boiss stands

Aim of study: a) To present a new version of the forest simulator Vorest, an individual-based spatially explicit model that uses weighted Voronoi diagrams to simulate the natural dynamics of forest stands with closed canopies. b) To apply the model to the current dynamics of a Grazalema pinsapo stand to identify the nature of its competition regime and the stagnation risks it is currently facing.Area of study: Sierra del Pinar de Grazalema (S Spain)Material and methods: Two large plots representative of Grazalema pinsapo stands were used to fit and validate the model (plus 6 accesory plots to increase the availability of mortality data). Two inventories were carried out in 1998 and 2007 producing tree size and location data. We developed a forest simulator based on three submodels: growth, competition and mortality. The model was fitted, evaluated and validated for Grazalema plots. The simulation outputs were used to infer the expected evolution of structural diversity of  forest stands.Main results: Vorest has proved to be a good tool for simulating dynamics of natural closed stands. The application to Grazalema pinsapo stands has allowed assessing the nature of the main processes that are driving its development pathway. We have found that the prevailing size-asymmetric competition dominates the self-thinning process in small-sized trees. At the same time, there is an active tree-size differentiation process.Research highlights:Vorest has proved to be a good tool for simulating natural stands with closed canopies.The Grazalema pinsapo stand under consideration is currently undergoing a natural process of differentiation, avoiding long-term stagnation.Keywords: Vorest; stand dynamics; individual-based forest model; spatially explicit forest model; pinsapo

DISEÑO, INSTALACIÓN Y APLICACIÓN DE LA HERRAMIENTA MARTELOSCOPIO PARA EL ENTRENAMIENTO PRÁCTICO Y LA INCORPORACIÓN EFECTIVA DE VALORES ECONÓMICOS, ECOLÓGICOS Y SOCIOLÓGICOS A LOS TRATAMIENTOS SELVÍCOLAS EN MONTE

A Marteloscope is a didactic tool for silvicultural training (virtual tree selection exercises). The availability of stand data on mobile devices (tablets) in combination with an appropriate software allows direct feedback on silvicultural decisions and resulting economic and ecological effects. Through this Teaching Innovation Project, we have designed, implemented and made preliminary tests of a Marteloscope in Sierra de Cazorla(Jaén). As a result, we have set up a permanent plot of 1 ha in the forest, where all trees have been geolocated, measured, marked and valued for microhabitats. We have developed the corresponding software for pc or tablets to simulate in real time the effects of silvicultural exercises, producing instantaneous outputs showing the effects of simulated thinnings on spatial distribution of trees and economic and ecological value of remaining and removed trees. We have preliminary tested the marteloscope in a UCO extension course on Forestry Practice, april 2017.Un Marteloscopio es una herramienta didáctica para el entrenamiento selvícola (ejercicios virtuales de selección de árboles). La disponibilidad de los datos del rodal forestal en un dispositivo móvil (tablet) en combinación con un software adecuado permite obtener una retroalimentación directa entre las decisiones selvícolas ensayadas y sus efectos en términos económicos y ecológicos. A través de este Proyecto de Innovación Docente hemos diseñado, implementado y realizado pruebas preliminares de un Marteloscopio en la Sierra de Cazorla (Jaén). Como resultado, hemos establecido una parcela permanente de 1 ha en el bosque en la cual se han geolocalizado, medido, marcado y evaluado su valor en microhábitats de todos los árboles existentes en la misma. Hemos desarrollado el correspondiente software para pc o tablet para simular en tiempo real los efectos de los ejercicios selvícolas en monte, produciendo salidas instantáneas de los efectos de las claras simuladas sobre la distribución espacial de los árboles y el valor económico y ecológico, tanto de los árboles extraídos como de los que quedan en pie. Hemos realizado un ensayo preliminar del Marteloscopio en un Curso Propio de la UCO denominado "Praxis en el Medio Forestal" que ha tenido lugar en el mes de abril de 2017

La regeneración en el Pinsapar de la Sierra de Grazalema. II: estructura y dinámica del regenerado consolidado en el pinsapar puro

En los tipos estructurales de pinsapar puro, se estudia la dinámica y la estructura del regenerado consolidado (plantas de más de un año de edad que no alcanzan las dimensiones de los pies menores, es decir, menos de 1,5 m de altura). El motivo de separar este grupo del de plántulas menores de un año, estriba en las diferentes posibilidades de supervivencia de uno y otro estado ya que en el regenerado consolidado va a depender en mayor medida del grado de competencia al que se vea sometido que de las condiciones locales del medio en que se asienta. El análisis de la distribución de alturas por clases muestra importantes diferencias significativas entre ambos estratos de pinsapar puro, para la clase < 15 cm pero no para las demás clases. Se ha analizado la evolución de la densidad del regenerado por clases de altura desde la fase de plántula hasta la de pie menor, obteniendo una gráfica descendente similar en ambos estratos con una caída brusca inexplicada en la clase de 100 a 150 cm, seguida de una subida en la clase de pies menores atribuida al estancamiento en el crecimiento en altura. El estudio de la relación altura edad demuestra que ésta es significativa, para el regenerado, pero no para los pies menores, indicando así que este grupo se compone de árboles dominados de numerosas y muy distintas edades. El regenerado consolidado constituye una reserva de regeneración a la espera, cuyos individuos aprovecharían las perturbaciones en la estructura para prosperar. Puede decirse que en las circunstancias actuales y frente a perturbaciones no catastróficas, la persistencia del pinsapar está asegurada

Response of essential-oil yield of aromatic and medicinal plants to different harvesting strategies

The demand for aromatic and medicinal plants (AMPs) is growing worldwide, and most of them are from the wild collection. Today there is a consensus that for industrial purposes the AMPs must be cultivated. Many studies have shown the importance of the collection strategy used to guarantee the plant regeneration, and soil protection against erosion process in mountainous areas in the Mediterranean region. In this work, during three-year monitoring period we compared in four AMPs two harvest strategies by cutting biomass in 25% (BHI25) and 50% (BHI50) of oregano (Origanum bastetanum L.), lavender (Lavandula lanata L.); sage (Salvia lavandulifolia V.); and santolina (Santolina rosmarinifolia L.) in order to assess their effect on essential-oil content, and to be consistent with both plant and soil conservation in Mediterranean steeply sloping areas. The experimental plots were located in Lanjarón (Granada, SE Spain), on a 20% slope. According to the findings the strategy BHI50 of fresh herb of oregano, lavender, sage, and santolina produced essential-oil yield of 13.2 ± 1.74, 17.3 ± 1.69, 9.7 ± 5.21, and 10.8 ± 2.00 L·ha-1, respectively. Since significant differences were found between BHI25 and BHI50 strategies for harvest and distillation of aromatic plants, we recommend a rational harvest, leaving the 50% of the plant biomass in the field to avoid the soil degradation. In addition, with this rational harvest strategy encourages the sustainable AMP cultivation without significant alterations for essential-oil yields, and at the same time guaranteeing the regrowth, and conservation of them in its habitat. Therefore, encouragement local decision-making measures regarding environmental compatibility, social acceptability and economic viability in land use and management will be crucial. Otherwise, the inappropriate harvest of aromatic shrubs in mountain areas compromises land conservation

La cubierta vegetal y la erosión de suelos por surcos por eventos lluviosos extremos en ambientes semiáridos

La conservación del recurso suelo en ambientes de tipo semiárido constituye uno de los mayores retos de los sistemas agrícolas y, en particular, en la región mediterránea. En el presente estudio se han comparado dos tipos de manejos de suelo, mínimo laboreo (ML) y mínimo laboreo con cubierta vegetal espontánea (MLVE), en una plantación de almendro en secano y en pendiente (35%), ante un evento extraordinario durante el año 2015 (91,3 mm y EI30 de 2 719,89 mm ha-1 h-1). Ante esta situación, en las parcelas de MLVE no se registró la formación de surcos en contraste con las de ML, donde la pérdida de suelo total fue más de 12 veces inferior a la registrada en estas últimas. Este hecho demuestra la eficacia de la cubierta vegetal en la protección del suelo agrícola frente a la erosión con eventos extremos de esta naturaleza. Asimismo, para el manejo de ML, la erosión por surcos representó más del 60% de la pérdida de suelo total, lo que indica el dominio de este tipo de erosión. Finalmente, cabe señalar que este evento supone la práctica totalidad de la pérdida de suelo registrada en las parcelas experimentales durante el período 2012-2015, lo que, en consecuencia, muestra el impacto significativo de los eventos extremos en las tasas de erosión en la región mediterránea.The conservation of the soil resource in semi-arid environments is one of the major challenges of agricultural systems, particularly in the Mediterranean region. In the present study, two types of soil management were compared: minimum tillage (ML) and minimum tillage with spontaneous vegetation cover (MLVE). The comparison was conducted in a rainfed almond plantation at slope (35%), under an extraordinary event in 2015 (91.3 mm and EI30 of 2,719.89 mm ha-1 h-1). In this situation in MLVE plots, the development of furrows in contrast to ML were not recorded; the total soil loss was more than 12 times lower than that recorded in the latter. This fact demonstrated the effectiveness of the vegetal cover in the protection of the agricultural soil against the erosion during extreme events. Also, for ML management, furrow erosion represented more than 60% of the total soil loss, demonstrating the dominance of this type of erosion. Finally, it should be noted that this event represents the almost total loss of soil recorded in the experimental plots during the period 2012-2015; and this consequently shows the significant impact of extreme events on erosion rates in the Mediterranean region

Assessing the Crop-Water Status in Almond (Prunus dulcis Mill.) Trees via Thermal Imaging Camera Connected to Smartphone

Different tools are being implemented in order to improve the water management in agricultural irrigated areas of semiarid environments. Thermography has been progressively introduced as a promising technique for irrigation scheduling and the assessing of crop-water status, especially when deficit irrigation is being implemented. However, an important limitation is related to the cost of the actual cameras, this being a severe limitation to its practical usage by farmers and technicians. This work evaluates the potential and the robustness of a thermal imaging camera that is connected to smartphone (Flir One) recently developed by Flir Systems Inc. as a first step to assess the crop water status. The trial was developed in mature almond (Prunus dulcis Mill.) trees that are subjected to different irrigation treatments. Thermal information obtained by the Flir One camera was deal with the thermal information obtained with a conventional Thermal Camera (Flir SC660) with a high resolution, and subsequently, confronted with other related plant physiological parameters (leaf water potential, Ψleaf, and stomatal conductance, gs). Thermal imaging camera connected to smartphone provided useful information in estimating the crop-water status in almond trees, being a potential promising tool to accelerate the monitoring process and thereby enhance water-stress management of almond orchards