Daytime sensible heat flux estimation over heterogeneous surfaces using multitemporal land‐surface temperature observations

Equations based on surface renewal (SR) analysis to estimate the sensible heat flux (H) require as input the mean ramp amplitude and period observed in the ramp‐like pattern of the air temperature measured at high frequency. A SR‐based method to estimate sensible heat flux (HSR‐LST) requiring only low‐frequency measurements of the air temperature, horizontal mean wind speed, and land‐surface temperature as input was derived and tested under unstable conditions over a heterogeneous canopy (olive grove). HSR‐LST assumes that the mean ramp amplitude can be inferred from the difference between land‐surface temperature and mean air temperature through a linear relationship and that the ramp frequency is related to a wind shear scale characteristic of the canopy flow. The land‐surface temperature was retrieved by integrating in situ sensing measures of thermal infrared energy emitted by the surface. The performance of HSR‐LST was analyzed against flux tower measurements collected at two heights (close to and well above the canopy top). Crucial parameters involved in HSR‐LST, which define the above mentioned linear relationship, were explained using the canopy height and the land surface temperature observed at sunrise and sunset. Although the olive grove can behave as either an isothermal or anisothermal surface, HSR‐LST performed close to H measured using the eddy covariance and the Bowen ratio energy balance methods. Root mean square differences between HSR‐LST and measured H were of about 55 W m−2. Thus, by using multitemporal thermal acquisitions, HSR‐LST appears to bypass inconsistency between land surface temperature and the mean aerodynamic temperature. The one‐source bulk transfer formulation for estimating H performed reliable after calibration against the eddy covariance method. After calibration, the latter performed similar to the proposed SR‐LST method.This research was funded by project CGL2012‐37416‐C04‐01 and CGL2015‐65627‐C3‐1‐R (Ministerio de Ciencia y Innovación of Spain), CEI Iberus, 2014 (Proyecto financiado por el Ministerio de Educación en el marco del Programa Campus de Excelencia Internacional of Spain), and Ayuda para estancias en centros extranjeros (Ministerio de Educación, Cultura y Deporte of Spain)

Contenimento naturale di Bactrocera oleae (Rossi): clima o parassitoidi? Confronto tra Western Cape (Sud Africa) e Sicilia

Bactrocera oleae (Rossi), mosca delle olive, e\u300 presente anche in Sud Africa, ma finora non si sono avute notizie di infestazioni economicamente rilevanti negli oliveti. L\u2019accertata presenza di un maggior numero di braconidi parassitoidi della mosca delle olive rispetto alle aree mediterranee e\u300 stata ed e\u300 considerata da molti autori la principale causa di queste minori infestazioni, senza che pero\u300 siano stati eseguiti in Sud Africa adeguati studi sulle infestazioni da B. oleae e sui fattori cli- matici delle aree interessate. Analizzando recenti dati sui livelli d\u2019infestazione di B. oleae registrati su olivo coltivato e selvatico nel Western Cape e in Sicilia, appaiono simili in una normale annata fino a meta\u300 estate, ma sono nettamente differenti a fine estate-inizio autunno, quando in Sicilia il clima diviene piu\u300 umido. Da una puntuale analisi dei corrispondenti dati climatici registrati nelle due aree e\u300 infatti emersa una sostanziale differenza nel decorso piu\u300 caldo e secco degli ultimi tre mesi precedenti la raccolta nel Western Cape; questo periodo invece in Sicilia e\u300 caratterizzato da temperature piu\u300 fresche e un aumento dell\u2019umidita\u300 relativa che favorisce l\u2019impennata delle infestazioni di B. oleae. Nei quattro mesi presi in considerazione si rileva anche una significativa differenza nell\u2019escursione termica, maggiore nel Western Cape, dovuta a minime notturne piu\u300 basse. Da un confronto dei livelli di parassitizzazione di B. oleae del Western Cape (Sud Africa) e dell\u2019area costiera della Provincia di Trapani, recentemente registrati su olivo colti- vato e selvatico (Olea europaea subsp. cuspidata in Sud Africa, Olea europaea subsp. europaea var. sylvestris in Sicilia) non sono emerse sostanziali differenze quantitative, pur confer- mando che in Sud Africa i principali parassitoidi sono tre bra- conidi (Utetes africanus (Sze\u301pligeti), Psyttalia lounsburyi (Silvestri) e Bracon celer (Sze\u301pligeti)), con il primo preva- lente sull\u2019olivo selvatico e l\u2019ultimo sul coltivato, mentre in Sicilia il braconide parassitoide Psyttalia concolor (Sze\u301pligeti) prevale sia sull\u2019olivo selvatico che sul coltivato. Comunque in entrambe le aree la parassitizzazione su B. oleae non rag- giunge elevati ed efficaci livelli. Il clima, e non la parassitizzazione dovuta ai braconidi, appare il piu\u300 importante fattore di contenimento di B. oleae anche in Sud Africa. L\u2019introduzione di parassitoidi specifici della mosca delle olive e\u300 necessaria nelle aree colonizzate di recente dove essi mancano, ma i tentativi di fornir loro una maggiore dis- ponibilita\u300 di larve dell\u2019ospite mediante l\u2019impianto di cultivar d\u2019olivo a maturazione e permanenza dei frutti piu\u300 differen- ziata, potrebbe produrre risultati certamente piu\u300 negativi che positivi nei confronti della presenza e dei livelli d\u2019infesta- zione di B. oleae sull\u2019olivo coltivato, come avviene nelle aree pandacie dove cresce spontaneo l\u2019olivastro.Natural environmental control of Bactrocera oleae (Rossi): climate or parasitoids? A comparison between the Western Cape of South Africa and Sicily. Bactrocera oleae (Rossi), the olive fruit fly is considered not a continuosly serious pest of olive trees in the Western Cape of South Africa, in spite of the climate similar to Mediterranean areas. South African braconid parasitoids of B. oleae are more numerous than in Mediterranean areas, and until now their action has been considered the factor lowering the level of infestation due to the olive fruit fly, but no deep studies on its infestation levels and climatic factors influencing them were carried out in the past. Analyzing recent data on infestation levels collected in the Western Cape and Sicily, they appear similar in a regular mid- summer, differing at the end of summer-beginning of autumn, when in Sicily the climate becomes more humid than in the Western Cape. A comparison of climatic data regarding four years underlines that Somerset West and Franshhoek, in comparison with Trapani, have significantly lower minimum daily temperatures, a higher daily thermal excursion and a lower relative humidity in the last three months preceding harvesting. Parasitization rates on B. oleae of Western Cape and Sicily, recorded on both cultivated and wild olives (Olea europaea subsp. cuspidata in South Africa, Olea europaea subsp. europaea var. sylvestris in Sicily) are not substantially different, confirming that in South Africa three braconids, Utetes africanus (Sze\u301pligeti), Psyttalia lounsburyi (Silvestri) and Bracon celer (Sze\u301pligeti), are the main parasitoids, with the first one as leader in wild olives and the last one as leader in cultivated ones, while in Sicily the braconid Psyttalia concolor (Sze\u301pligeti) is the main parasitoid in both wild and cultivated olives. Nevertheless parasitism on B. oleae doesn\u2019t reach effective levels of control in bats ragions. The climate, instead of parasitization due to braconids, is the main environmental factor limiting the olive fruit fly infestations in the Western Cape of South Africa. The introduction of parasitoids specific to the olive fruit fly is necessary in new invaded areas where they lack, but the attempt of providing them a more available amount of host fruits along the year, planting olive trees bearing fruits up to spring, could bring serious problems as those typical of Mediterranean areas where the European wild olive naturally grows

A Review of Selected Applications of GNSS CORS and Related Experiences at the University of Palermo (Italy)

Services from the Continuously Operating Reference Stations (CORS) of the Global Navigation Satellite System (GNSS) provide data and insights to a range of research areas such as physical sciences, engineering, earth and planetary sciences, computer science, and environmental science. Even though these fields are varied, they are all linked through the GNSS operational application. GNSS CORS have historically been deployed for three-dimensional positioning but also for the establishment of local and global reference systems and the measurement of ionospheric and tropospheric errors. In addition to these studies, CORS is uncovering new, emerging scientific applications. These include real-time monitoring of land subsidence via network real-time kinematics (NRTK) or precise point positioning (PPP), structural health monitoring (SHM), earthquake and volcanology monitoring, GNSS reflectometry (GNSS-R) for mapping soil moisture content, precision farming with affordable receivers, and zenith total delay to aid hydrology and meteorology. The flexibility of CORS infrastructure and services has paved the way for new research areas. The aim of this study is to present a curated selection of scientific papers on prevalent topics such as network monitoring, reference frames, and structure monitoring (like dams), along with an evaluation of CORS performance. Concurrently, it reports on the scientific endeavours undertaken by the Geomatics Research Group at the University of Palermo in the realm of GNSS CORS over the past 15 years

Proximal-sensing-powered modelling of energy-water fluxes in a vineyard: A spatial resolution analysis

Spatial resolution is a key parameter in energy–water surface flux modelling. In this research, scale effects are analyzed on fluxes modelled with the FEST-EWB model, by upscaling both its inputs and outputs separately. The main questions are: (a) if high-resolution remote sensing images are necessary to accurately model a heterogeneous area; and (b) whether and to what extent low-resolution modelling provides worse/better results than the upscaled results of high-resolution modelling. The study area is an experimental vineyard field where proximal sensing images were obtained by an airborne platform and verification fluxes were measured via a flux tower. Modelled fluxes are in line with those from alternative energy-balance models, and quite accurate (NSE = 0.78) with respect to those measured in situ. Field-scale evapotranspiration has resulted in both the tested upscaling approaches (with relative error within ±30%), although fewer pixels available for low-resolution calibration may produce some differences. When working at low resolutions, the model has produced higher relative errors (20% on average), but is still within acceptable bounds. This means that the model can produce high-quality results, partially compensating for the loss in spatial heterogeneity associated with low-resolution images

Particle tracking in a gap of aquatic vegetation meadow

Aquatic vegetation considerably affects the flow field in water bodies, with influence increasing as the depth decreases. As a consequence, vegetation also affects suspended particle transport. In inshore sandy beds less than 40 m deep of the Mediterranean Sea, meadows of Posidonia oceanica are widespread. This plant is constituted by a tuft of very thin and flexible ribbon-like leaves about 1 cm wide and up to 1.5 m long; the meadow areal density can reach 1000-1200 plant/m2. Frequently, such meadows are not continuous but vegetated areas alternate with sand strips (“gaps”). The presence of such discontinuities noticeably affects the flow field and gaps can actually act as particle traps. Some laboratory experiments were performed aiming at studying the flow field in a gap of artificial Posidonia oceanica canopy. In this paper, the measured flow field is used to track single particles within the gap. A simple particle tracking model which assumes no-slip condition and random velocity fluctuations is adopted. A large number of single-particle tracking were performed considering several release elevations of particles as well as several falling velocities of the latters. The examination of the whole tracks allows one to recognize the particle fate as the simulation parameters vary. In spite of the model assumptions, the study gives useful indications on the behavior of a gap towards the suspended particle transport

Nrtk, ppp or static, that is the question. Testing different positioning solutions for gnss survey

Worldwide, the determination of the coordinates from a Global Navigation Satellite System (GNSS) survey (in Network Real Time Kinematic, Precise Point Positioning, or static mode) has been analysed in several scientific and technical applications. Many of those have been carried out to compare Precise Point Positioning (PPP), Network Real Time Kinematic (NRTK), and static modes’ solutions, usually, using the latter as the true or the most plausible solution. This approach is not always possible as the static mode solution depends on several parameters (baseline length, acquisition time, ionospheric, and tropospheric models, etc.) that must be considered to evaluate the accuracy of the method. This work aims to show the comparison among the GNSS survey methods mentioned above, using some benchmark points. The tests were carried out by comparing the survey methods in pairs to check their solutions congruence. The NRTK and the static solutions refer to a local GNSS CORS network’s analysis. The NRTK positioning has been obtained with different methods (VRS, FKP, NEA) and the PPP solution has been calculated with two different software (RTKLIB and CSRS-PPP). A statistical approach has been performed to check if the distribution frequencies of the coordinate’s residual belong to the normal distribution, for all pairs analysed. The results show that the hypothesis of a normal distribution is confirmed in most of the pairs and, specifically, the Static vs. NRTK pair seems to achieve the best congruence, while involving the PPP approach, pairs obtained with CSRS software achieve better congruence than those involving RTKLIB software

Toward a Comprehensive Dam Monitoring: On-Site and Remote-Retrieved Forcing Factors and Resulting Displacements (GNSS and PS–InSAR)

Many factors can influence the displacements of a dam, including water level variability and environmental temperatures, in addition to the dam composition. In this work, optical-based classification, thermal diachronic analysis, and a quasi-PS (Persistent Scatter) Interferometric SAR technique have been applied to determine both forcing factors and resulting displacements of the crest of the Castello dam (South Italy) over a one-year time period. The dataset includes Sentinel-1A images acquired in Interferometric Wide swath mode using the Terrain Observation with Progressive Scans SAR (TOPSAR); Landsat 8 Thermal Infrared Sensor (TIRS) thermal images, and Global Navigation Satellite System (GNSS) for interpreting the motion of the top of the dam retrieved via interferometry. Results suggest that it is possible to monitor both dam water level and temperature periodic forcing factors and resulting displacements via a synergistic use of different satellite images

Toward a comprehensive dam monitoring: On-site and remote-retrieved forcing factors and resulting displacements (gnss and ps–insar)

Many factors can influence the displacements of a dam, including water level variability and environmental temperatures, in addition to the dam composition. In this work, optical-based classification, thermal diachronic analysis, and a quasi-PS (Persistent Scatter) Interferometric SAR technique have been applied to determine both forcing factors and resulting displacements of the crest of the Castello dam (South Italy) over a one-year time period. The dataset includes Sentinel-1A images acquired in Interferometric Wide swath mode using the Terrain Observation with Progressive Scans SAR (TOPSAR); Landsat 8 Thermal Infrared Sensor (TIRS) thermal images, and Global Navigation Satellite System (GNSS) for interpreting the motion of the top of the dam retrieved via interferometry. Results suggest that it is possible to monitor both dam water level and temperature periodic forcing factors and resulting displacements via a synergistic use of different satellite images