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Studies of plant hydraulics and water relations in mexican environments: adaptation, physiology, and applications

Estudios sobre hidráulica y relaciones hídricas de plantas en ambientes mexicanos: adaptaciones, fisiología y aplicaciones

RODRIGO MENDEZ ALONZO Mark Olson Horacio Paz Casandra Reyes García CELENE MARISOL ESPADAS MANRIQUE CLARA TINOCO OJANGUREN Santiago Trueba (2022, [Artículo])

Given the outstanding global progress of research on the hydraulic pathway in plants, and its important role as an indicator of plant mortality risk, we reviewed: (1) the adaptive basis of hydraulic traits and their importance for overall plant function; (2) the number of primary scientific articles on plant hydraulics that have been produced in Mexico in the last 40 years, (3) research related to specific environments in Mexico, and (4) the possible applications of plant hydraulics to natural resource management. Our systematic review included 83 articles. The number of publications per year steadily increased over time, reaching its maximum in 2021. Veracruz and Yucatán are the states where the majority of scientific articles on plant hydraulics have been produced, but for most states less than two publications on this subject appeared in ca. 40 years, and none was found for Oaxaca and Chiapas, the most biodiverse states. In plant hydraulics, the most studied biome in Mexico was the tropical dry forest, followed by crops; trees were the most studied growth-form, followed by herbaceous crops and epiphytes. We point to the need of enhancing research in the interface between plant hydraulic function and remote sensing, as well as developing applications in adaptive forest management and ecological restoration. We hope that this review may ignite a national collaborative effort to quantify critical traits that could inform the hydraulic functioning of Mexican ecosystems, particularly in the underrepresented and highly diverse states of Mexico. © 2022 Sociedad Botanica de Mexico, A.C. All rights reserved.

ADAPTATION DROUGHT VULNERABILITY ECOPHYSIOLOGY PLANT WATER RELATIONS SYSTEMATIC REVIEW BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA VEGETAL (BOTÁNICA) ECOLOGÍA VEGETAL ECOLOGÍA VEGETAL

Revisiting the phylogeny and taxonomy of the Pithecellobium clade (Leguminosae, Caesalpinioideae) with new generic circumscriptions

Iván Tamayo-Cen Benjamin Torke JOSE ENRIQUE LOPEZ CONTRERAS GERMAN CARNEVALI FERNANDEZ CONCHA Ivón Mercedes Ramírez Morillo Lilia Lorena Can Itza RODRIGO STEFANO DUNO (2022, [Artículo])

We present the most complete molecular phylogeny to date of the Pithecellobium clade of subfamily Caesalpinioideae. This neotropical group was informally recognised (as the Pithecellobium alliance) at the end of the 20th century by Barneby and Grimes (1996) and includes five genera and 33 species distributed from the southern United States and Caribbean Islands to north-eastern South America. Our aims were to further test the monophyly of the group and its genera and to identify sister group relationships within and amongst the genera. A phylogenetic analysis of nuclear ribosomal DNA sequences (ITS and ETS) was performed. The results provide further support for the monophyly of the Pithecellobium clade. The genera Ebenopsis, Pithecellobium and Sphinga were strongly supported as monophyletic. Havardia and Painteria were found to be non-monophyletic, prompting their re-circumscriptions and the description of two new genera: Gretheria and Ricoa. New combinations are made for the three species transferred to the new genera. © Iván Tamayo-Cen et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

FABACEAE INGEAE INGOID CLADE MIMOSOID NEW WORLD PHYLOGENETIC SYSTEMATIC TAXONOMY BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA VEGETAL (BOTÁNICA) TAXONOMÍA VEGETAL TAXONOMÍA VEGETAL

El impacto de los mantenimientos preventivos en los sistemas fotovoltaicos interconectados a la red de distribución eléctrica

Kassandra Elizabeth López Esparza Raúl Pérez Bustamante GUILLERMO RAUL GARCIA FERRERA (2023, [Artículo])

La obligación de llevar un sistema o equipo a su máximo rendimiento y operación, así como la resolución de posibles fallas en el mismo, ha dado lugar a la necesidad de desarrollar un ámbito especializado dedicado exclusivamente a abordar estas obligaciones. De esto surge el campo del mantenimiento, cuyo propósito fundamental es asegurar el funcionamiento adecuado de los equipos o instalaciones en los cuales se lleva a cabo dicho trabajo, así como corregir y prevenir fallas o problemas en los sistemas en cuestión. El mantenimiento puede aplicarse en una amplia gama de sectores donde se necesite prevenir o corregir alguna operación, y en el caso del sector energético renovable esto no es una excepción. En particular, el mantenimiento de los sistemas fotovoltaicos interconectadas a la red (SFIR) busca llevar la instalación a su mejor zona de operación y funcionamiento para con esto asegurar la generación de energía. Es por esta razón, que el sector energético se ha unido al desarrollo de una rama que se dedique a la operación y mantenimiento (O&M) de los sistemas fotovoltaicos. En este artículo se exponen los resultados de un estudio de mantenimiento preventivo en una instalación fotovoltaica ubicada en el estado de Aguascalientes, el cual fue realizado por Sunna Power, una empresa dedicada a ofrecer servicios de mantenimiento a SFIR en México. El trabajo explorará el estado de la instalación previo al mantenimiento y su situación una vez que éste ha sido ejecutado. Aun cuando los SFIR requieren poco mantenimiento, este articulo pretende demostrar que a pesar de esto la implementación de un plan de mantenimiento en las instalaciones puede generar un impacto positivo en la producción de energía del sistema, mostrando los resultados obtenidos en el mantenimiento ejecutado en la instalación fotovoltaica.

The obligation to ensure that a system or piece of equipment achieves its maximum performance and functionality, and to correct any failures that may occur, has led to the need to develop a specialized field dedicated exclusively to meeting these obligations. This has given rise to the field of maintenance, the basic aim of which is to ensure the correct functioning of the equipment or installations on which the work is carried out, and to correct and prevent any failures or problems in the systems concerned; maintenance can be applied in a wide range of sectors where it is necessary to prevent or correct an operation, and the renewable energy sector is no exception. In particular, the maintenance of photovoltaic systems connected to the grid (SFIR) aims to bring the installation to its best operational and functional range in order to guarantee energy production; it is for this reason that the energy sector has participated in the development of a branch dedicated to the operation and maintenance (O&M) of photovoltaic systems. This article presents the results of a preventive maintenance study in a photovoltaic plant located in the state of Aguascalientes, carried out by Sunna Power, a company dedicated to providing maintenance services to SFIR in Mexico. The study examines the condition of the installation before maintenance and the situation after maintenance. Although SFIR requires little maintenance, this article aims to demonstrate that the implementation of a maintenance plan in the plants can nevertheless have a positive impact on the energy production of the system, displaying the results obtained in the maintenance carried out on the photovoltaic installation.

Mantenimiento preventivo Módulo fotovoltaico Plan de mantenimiento Sistema fotovoltaico Preventive maintenance Maintenance plan Photovoltaic system INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS OTRAS ESPECIALIDADES TECNOLÓGICAS OTRAS OTRAS

Maize seed aid and seed systems development: Opportunities for synergies in Uganda

Jason Donovan Rachel Voss Pieter Rutsaert (2024, [Artículo])

In the name of food security, governments and NGOs purchase large volumes of maize seed in non-relief situations to provide at reduced or no cost to producers. At the same time, efforts to build formal maize seed systems have been frustrated by slow turnover rates – the dominance of older seed products in the market over newer, higher performing ones. Under certain conditions, governments and NGO seed aid purchases can support formal seed systems development in three ways: i) support increased producer awareness of new products, ii) support local private seed industry development, and iii) advance equity goals by targeting aid to the most vulnerable of producers who lack the capacity to purchase seeds. This study explores the objectives and activities of seed aid programmes in Uganda and their interactions with the maize seed sector. We draw insights from interviews with representatives of seed companies, NGOs and government agencies, as well as focus group discussions with producers. The findings indicated that seed aid programme objectives are largely disconnected from broader seed systems development goals. There is little evidence of public-private collaboration in design of these programmes. Better designed programs have the potential to align with varietal turnover objectives, commercial sector development and targeting of underserved markets could promote equity and ‘crowd in’ demand.

Seed Business Varietal Turnover Seed Aid CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA SEED SEED SYSTEMS SOCIAL INCLUSION MAIZE

Impact of automation on enhancing energy quality in grid-connected photovoltaic systems

Virgilio Alfonso Murillo Rodríguez NOE VILLA VILLASEÑOR José Manuel Robles Solís OA Guirette-Barbosa (2023, [Artículo])

Rapid growth in the integration of new consumers into the electricity sector, particularly in the industrial sector, has necessitated better control of the electricity supply and of the users’ op-erating conditions to guarantee an adequate quality of service as well as the unregulated dis-turbances that have been generated in the electrical network that can cause significant failures, breakdowns and interruptions, causing considerable expenses and economic losses. This research examines the characteristics of electrical variations in equipment within a company in the industrial sector, analyzes the impact generated within the electrical system according to the need for operation in manufacturing systems, and proposes a new solution through automation of the regulation elements to maintain an optimal system quality and prevent damage and equipment failures while offering a cost-effective model. The proposed solution is evaluated through a reliable simulation in ETAP (Energy Systems Modeling, Analysis and Optimization) software, which emulates the interaction of control elements and simulates the design of electric flow equipment operation. The results demonstrate an improvement in system performance in the presence of disturbances when two automation schemes are applied as well as the exclusive operation of the capacitor bank, which improves the total system current fluctuations and improves the power factor from 85.83% to 93.42%. Such a scheme also improves the waveform in the main power system; another improvement result is when simultaneously operating the voltage and current filter together with the PV system, further improving the current fluctuations, improving the power factor from 85.83% to 94.81%, achieving better stability and improving the quality of the waveform in the main power grid.

This article belongs to Special Issue Advances and Optimization of Electric Energy System.

Power quality Capacitor bank Voltage and current filter Photovoltaic system INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS OTRAS ESPECIALIDADES TECNOLÓGICAS OTRAS OTRAS