Biostimulants: Mitigation strategy for salinity stress in fruit crops

被引:0
作者
Maanik [1 ]
Sharma, Reetika [1 ]
Kumar, Rakesh [1 ]
Bakshi, Parshant [1 ]
Thakur, Nikhil [1 ]
Sharma, Neetu [2 ]
Sharma, Peeyush [3 ]
Raina, Vishal [4 ]
机构
[1] Sher E Kashmir Univ Agr Sci & Technol Jammu, Div Fruit Sci, Jammu 180009, Jammu & Kashmir, India
[2] Sher E Kashmir Univ Agr Sci & Technol Jammu, Div Agron, Jammu 180009, Jammu & Kashmir, India
[3] Sher E Kashmir Univ Agr Sci & Technol Jammu, Div Soil Sci & Agr Chem, Jammu 180009, Jammu & Kashmir, India
[4] Sher E Kashmir Univ Agr Sci & Technol Jammu, Div Seed Sci, Jammu 180009, Jammu & Kashmir, India
来源
PLANT SCIENCE TODAY | 2025年 / 12卷 / 01期
关键词
abiotic stress; biostimulants; climate change; salinity stress; sustainable fruit production; SEAWEED ASCOPHYLLUM-NODOSUM; PLANT BIOSTIMULANTS; QUALITY; GROWTH; YIELD; INCREASES; PATHWAYS; EXTRACT;
D O I
10.14719/pst.3273
中图分类号
Q94 [植物学];
学科分类号
071001 ;
摘要
The burgeoning specter of abiotic stresses caused by global climate change, including drought, salt, extremely high temperatures, heavy metals and UV radiation, has rendered fragile agroecosystems increasingly precarious. This has reduced the production and quality of fruit crops. The burden on plants might be even worse if several stressors occur at once. These multifarious stressors have led to a 70 % reduction in annual agricultural production globally, sparking the embers of food scarcity and stoking the fires of hunger within our ever-expanding populace. However, within this seemingly hopeless situation, a number of alternatives have surfaced as a glimmer of light. Biostimulants, derived from natural or organic sources, enhance plant development and resilience by enhancing their capacity to absorb nutrients, withstand stress and sustain overall health. The exogenous application of biostimulants on an organic basis has emerged as a powerful treatment for certain of them, promoting plant growth and production in the face of adversity. These biostimulants work across a wide range of pathways, composing a symphony of resistance to stress-related difficulties. Only a few papers have provided information on plant biostimulants' impacts on fruit quality, which is connected to appearance, chemical composition and physical characteristics. The objective of this review is to assess the efficacy of externally applied organic biostimulants in improving plant growth and productivity, especially in challenging environments. These biostimulants enhance plant resilience, nutrient absorption and overall health, providing a sustainable solution to agricultural difficulties. They also have a sustainable appeal since they are organic, satisfying the desire of customers who are concerned about the advantages of eating healthier food.
引用
收藏
页码:17 / 17
页数:1
相关论文
共 50 条
[41]   Plant Biostimulants: Importance of the Quality and Yield of Horticultural Crops and the Improvement of Plant Tolerance to Abiotic Stress-A Review [J].
Drobek, Magdalena ;
Frac, Magdalena ;
Cybulska, Justyna .
AGRONOMY-BASEL, 2019, 9 (06)
[42]   Response and Defence Mechanisms of Vegetable Crops against Drought, Heat and Salinity Stress [J].
Giordano, Maria ;
Petropoulos, Spyridon A. ;
Rouphael, Youssef .
AGRICULTURE-BASEL, 2021, 11 (05)
[43]   Evaluation of nanoparticle biostimulants in alleviating salinity-induced stress: A study on morphological and molecular responses in potato cultivars [J].
Alahmari, Amirah S. ;
Magdy, Mahmoud ;
El-Mansy, Ahmed B. ;
Awad, Nabil S. ;
Eldenary, Mohammad E. ;
Alshamrani, Rahma ;
Almuziny, Makhdora ;
Abuzaid, Amani Omar ;
Al Aboud, Nora M. ;
Abd El Moneim, Diaa .
CHILEAN JOURNAL OF AGRICULTURAL RESEARCH, 2025, 85 (03) :414-423
[44]   Salinity and Mulching Effects on Nutrition and Production of Grafted Sour Passion Fruit [J].
de Luna Souto, Antonio Gustavo ;
Cavalcante, Lourival Ferreira ;
de Melo, Edinete Nunes ;
Cavalcante, Italo Herbert Lucena ;
da Silva, Roberto Italo Lima ;
de Lima, Geovani Soares ;
Gheyi, Hans Raj ;
Pereira, Walter Esfrain ;
de Paiva Neto, Vespasiano Borges ;
de Oliveira, Carlos Jardel Andrade ;
de Oliveira Mesquita, Francisco .
PLANTS-BASEL, 2023, 12 (05)
[45]   Biostimulants on Nutritional Status and Fruit Production of Mango 'Kent' in the Brazilian Semiarid Region [J].
Lobo, Jackson Teixeira ;
Lucena Cavalcante, Italo Herbert ;
Nascimento Lima, Augusto Miguel ;
Carvalho Vieira, Yuri Alysson ;
Rodrigues Modesto, Pedro Igor ;
da Cunha, Jenilton Gomes .
HORTSCIENCE, 2019, 54 (09) :1501-1508
[46]   Nanotechnology as a tool for abiotic stress mitigation in horticultural crops [J].
Ibrahim M. Abdelsalam ;
Soumya Ghosh ;
Samar Sami AlKafaas ;
Heba Bedair ;
Alhadji Malloum ;
Sara Samy ElKafas ;
Khalil M. Saad-Allah .
Biologia, 2023, 78 :163-178
[47]   Halotolerant Rhizobacteria for Salinity-Stress Mitigation: Diversity, Mechanisms and Molecular Approaches [J].
Sagar, Alka ;
Rai, Shalini ;
Ilyas, Noshin ;
Sayyed, R. Z. ;
Al-Turki, Ahmad I. ;
El Enshasy, Hesham Ali ;
Simarmata, Tualar .
SUSTAINABILITY, 2022, 14 (01)
[48]   Multiple Passaging of Rhizospheric Microbiome Enables Mitigation of Salinity Stress in Vigna Radiata [J].
Dubey, Shubham ;
Khatri, Shivani ;
Bhattacharjee, Annapurna ;
Sharma, Shilpi .
PLANT GROWTH REGULATION, 2022, 97 (03) :537-549
[49]   Halotolerant Endophytic Fungi Bioformulations for Salinity Stress Mitigation [J].
Qaderi, Sirvan ;
Safaie, Naser .
JOURNAL OF CROP HEALTH, 2025, 77 (03)
[50]   Foliar spray of commercial seaweed and amino acid-derived biostimulants promoted phytoremediation potential and salinity stress tolerance in halophytic grass, Puccinellia distans [J].
Hosseini, Saeed ;
Shabani, Leila ;
Sabzalian, Mohammad R. ;
Gharibi, Shima .
INTERNATIONAL JOURNAL OF PHYTOREMEDIATION, 2023, 25 (04) :415-429