‘A man is known by the company he keeps’: A critical overview of semantic prosody

The discipline of corpus linguistics has revolutionized the study of language in a variety of ways. In this respect, semantic prosody is one of the rapidly evolving research streams that encapsulates the incorporation of digital technology into linguistic research and deserves more scholarly attention. The paper aims to offer new insights into the study of this theoretical concept. It presents a critical review of the existing literature, delineating the major merits and challenges of this area of inquiry, and suggests novel research avenues. This article has theoretical and practical implications for the future research agenda on semantic prosody. It underscores the importance of endowing this corpus linguistics concept with more clarity and consistency as to its labeling, conceptualization, and delimitation. The paper also proposes some new applications pertaining to the investigation of the discursive construction of human referents across different text types

Non-Destructive Optical Monitoring of Grape Maturation by Proximal Sensing

A new, commercial, fluorescence-based optical sensor for plant constituent assessment was recently introduced. This sensor, called the Multiplex® (FORCE-A, Orsay, France), was used to monitor grape maturation by specifically monitoring anthocyanin accumulation. We derived the empirical anthocyanin content calibration curves for Champagne red grape cultivars, and we also propose a general model for the influence of the proportion of red berries, skin anthocyanin content and berry size on Multiplex® indices. The Multiplex® was used on both berry samples in the laboratory and on intact clusters in the vineyard. We found that the inverted and log-transformed far-red fluorescence signal called the FERARI index, although sensitive to sample size and distance, is potentially the most widely applicable. The more robust indices, based on chlorophyll fluorescence excitation ratios, showed three ranges of dependence on anthocyanin content. We found that up to 0.16 mg cm−2, equivalent to approximately 0.6 mg g−1, all indices increase with accumulation of skin anthocyanin content. Excitation ratio-based indices decrease with anthocyanin accumulation beyond 0.27 mg cm−2. We showed that the Multiplex® can be advantageously used in vineyards on intact clusters for the non-destructive assessment of anthocyanin content of vine blocks and can now be tested on other fruits and vegetables based on the same model

Potential of a multiparametric optical sensor for determining in situ the maturity components of red and white vitis vinifera wine grapes

A non-destructive fluorescence-based technique for evaluating Vitis vinifera L. grape maturity using a portable sensor (Multiplex ®) is presented. It provides indices of anthocyanins and chlorophyll in Cabernet Sauvignon, Merlot and Sangiovese red grapes and of flavonols and chlorophyll in Vermentino white grapes. The good exponential relationship between the anthocyanin index and the actual anthocyanin content determined by wet chemistry was used to estimate grape anthocyanins from in field sensor data during ripening. Marked differences were found in the kinetics and the amount of anthocyanins between cultivars and between seasons. A sensor-driven mapping of the anthocyanin content in the grapes, expressed as g/kg fresh weight, was performed on a 7-ha vineyard planted with Sangiovese. In the Vermentino, the flavonol index was favorably correlated to the actual content of berry skin flavonols determined by means of HPLC analysis of skin extracts. It was used to make a non-destructive estimate of the evolution in the flavonol concentration in grape berry samplings. The chlorophyll index was inversely correlated in linear manner to the total soluble solids (°Brix): it could, therefore, be used as a new index of technological maturity. The fluorescence sensor (Multiplex) possesses a high potential for representing an important innovative tool for controlling grape maturity in precision viticulture

‘A man is known by the company he keeps’: A critical overview of semantic prosody

The discipline of corpus linguistics has revolutionized the study of language in a variety of ways. In this respect, semantic prosody is one of the rapidly evolving research streams that encapsulates the incorporation of digital technology into linguistic research and deserves more scholarly attention. The paper aims to offer new insights into the study of this theoretical concept. It presents a critical review of the existing literature, delineating the major merits and challenges of this area of inquiry, and suggests novel research avenues. This article has theoretical and practical implications for the future research agenda on semantic prosody. It underscores the importance of endowing this corpus linguistics concept with more clarity and consistency as to its labeling, conceptualization, and delimitation. The paper also proposes some new applications pertaining to the investigation of the discursive construction of human referents across different text types

Non-Destructive Optical Monitoring of Grape Maturation by Proximal Sensing

A new, commercial, fluorescence-based optical sensor for plant constituent assessment was recently introduced. This sensor, called the Multiplex® (FORCE-A, Orsay, France), was used to monitor grape maturation by specifically monitoring anthocyanin accumulation. We derived the empirical anthocyanin content calibration curves for Champagne red grape cultivars, and we also propose a general model for the influence of the proportion of red berries, skin anthocyanin content and berry size on Multiplex® indices. The Multiplex® was used on both berry samples in the laboratory and on intact clusters in the vineyard. We found that the inverted and log-transformed far-red fluorescence signal called the FERARI index, although sensitive to sample size and distance, is potentially the most widely applicable. The more robust indices, based on chlorophyll fluorescence excitation ratios, showed three ranges of dependence on anthocyanin content. We found that up to 0.16 mg cm−2, equivalent to approximately 0.6 mg g−1, all indices increase with accumulation of skin anthocyanin content. Excitation ratio-based indices decrease with anthocyanin accumulation beyond 0.27 mg cm−2. We showed that the Multiplex® can be advantageously used in vineyards on intact clusters for the non-destructive assessment of anthocyanin content of vine blocks and can now be tested on other fruits and vegetables based on the same model