Salt Stress in Plants and Mitigation Approaches
| Primer Autor |
Ondrasek, Gabrijel
|
| Co-autores |
Rathod, Santosha
Manohara, Kallakeri Kannappa
Gireesh, Channappa
Anantha, Madhyavenkatapura Siddaiah
Sakhare, Akshay Sureshrao
Parmar, Brajendra
Yadav, Brahamdeo Kumar
Bandumula, Nirmala
Raihan, Farzana
Zielinska-Chmielewska, Anna
Merino-Gergichevich, Cristian
Reyes-Diaz, Marjorie
Khan, Amanullah
Panfilova, Olga
Seguel Fuentealba, Alex
Meier Romero, Sebastian
Nabil, Beithou
Wan, Chunpeng Craig
Shepherd, Jonti
Horvatinec, Jelena
|
| Título |
Salt Stress in Plants and Mitigation Approaches
|
| Editorial |
MDPI
|
| Revista |
PLANTS-BASEL
|
| Lenguaje |
en
|
| Resumen |
Salinization of soils and freshwater resources by natural processes and/or human activities has become an increasing issue that affects environmental services and socioeconomic relations. In addition, salinization jeopardizes agroecosystems, inducing salt stress in most cultivated plants (nutrient deficiency, pH and oxidative stress, biomass reduction), and directly affects the quality and quantity of food production. Depending on the type of salt/stress (alkaline or pH-neutral), specific approaches and solutions should be applied to ameliorate the situation on-site. Various agro-hydrotechnical (soil and water conservation, reduced tillage, mulching, rainwater harvesting, irrigation and drainage, control of seawater intrusion), biological (agroforestry, multi-cropping, cultivation of salt-resistant species, bacterial inoculation, promotion of mycorrhiza, grafting with salt-resistant rootstocks), chemical (application of organic and mineral amendments, phytohormones), bio-ecological (breeding, desalination, application of nano-based products, seed biopriming), and/or institutional solutions (salinity monitoring, integrated national and regional strategies) are very effective against salinity/salt stress and numerous other constraints. Advances in computer science (artificial intelligence, machine learning) provide rapid predictions of salinization processes from the field to the global scale, under numerous scenarios, including climate change. Thus, these results represent a comprehensive outcome and tool for a multidisciplinary approach to protect and control salinization, minimizing damages caused by salt stress.
|
| Tipo de Recurso |
artículo original
|
| doi |
10.3390/plants11060717
|
| Formato Recurso |
PDF
|
| Palabras Claves |
salt stress
neutral and alkaline salinity
plant-microbe associations
salinity and nanotechnology
soil amendments
artificial intelligence
ARBUSCULAR MYCORRHIZAL FUNGI
SOIL ORGANIC-MATTER
ANTIOXIDANT ENZYMES
TIME-SERIES
ARTIFICIAL-INTELLIGENCE
SALICYLIC-ACID
ION BALANCE
GLOMUS-INTRARADICES
TOLERANT RHIZOBIA
SPINACH GROWTH
|
| Ubicación del archivo | |
| Categoría OCDE |
Ciencias de las plantas
|
| Materias |
estrés salino
salinidad neutra y alcalina
asociaciones planta-microbios
salinidad y nanotecnología
enmiendas del suelo
inteligencia artificial
HONGOS MICORRIZICOS ARBUSCULARES
MATERIA ORGÁNICA DEL SUELO
ENZIMAS ANTIOXIDANTES
SERIE TIEMPO
INTELIGENCIA ARTIFICIAL
ÁCIDO SALICÍLICO
EQUILIBRIO IÓNICO
GLOMUS-INTRARÁDICOS
RHIZOBIA TOLERANTE
CRECIMIENTO DE ESPINACAS
|
| Disciplinas de la OCDE |
Ciencias del suelo
Agronomía
Biotecnología agrícola
|
| Título de la cita (Recomendado-único) |
Salt Stress in Plants and Mitigation Approaches
|
| Identificador del recurso (Mandatado-único) |
artículo original
|
| Versión del recurso (Recomendado-único) |
version publicada
|
| License |
CC BY 4.0
|
| Condición de la licencia (Recomendado-repetible) |
CC BY 4.0
|
| Derechos de acceso |
acceso abierto
|
| Access Rights |
acceso abierto
|
| Id de Web of Science |
WOS:000774527700001
|
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