Review
Plant Sciences
Tauan Rimoldi Tavanti, Andressa Aparecida Rodrigues de Melo, Luan Dionnes Kaiber Moreira, Douglas Enrique Juarez Sanchez, Rafael dos Santos Silva, Ricardo Messias da Silva, Andre Rodrigues dos Reis
Summary: Reactive oxygen species (ROS) act as signaling of abiotic stresses at low concentrations but cause oxidation and cell death at high concentrations. Plants develop antioxidant defense mechanisms to maintain homeostasis. Micronutrient fertilizers can activate antioxidative enzymes and metabolism, improving plant tolerance to oxidative stress and overall nutritional status.
PLANT PHYSIOLOGY AND BIOCHEMISTRY
(2021)
Article
Plant Sciences
Azamat Avalbaev, Chulpan Allagulova, Dilara Maslennikova, Kristina Fedorova, Farida Shakirova
Summary: The application of MeJA and BAP can alleviate oxidative stress caused by salt stress, promote the accumulation of proline and dehydrins, and enhance the barrier properties of cell walls.
JOURNAL OF PLANT GROWTH REGULATION
(2021)
Article
Horticulture
Golam Jalal Ahammed, Xin Li
Summary: Dopamine, a natural amine compound, has strong antioxidant capacity and can enhance plant tolerance to abiotic stressors. It promotes photosynthetic pigment concentrations, CO2 assimilation, and plant growth. Additionally, dopamine alleviates oxidative stress and aids nutrient acquisition by regulating ion transporters. It also activates xenobiotic detoxification pathways under organic pollutant stress.
SCIENTIA HORTICULTURAE
(2023)
Review
Plant Sciences
Mareike Jezek, Andrew C. Allan, Jeffrey J. Jones, Christoph-Martin Geilfus
Summary: Foliar anthocyanin accumulation is not only induced by nitrogen or phosphorous deficiency but also by other nutritional imbalances. This misconception has led to excessive use of fertilizers, causing environmental burden. Anthocyanins have various physiological functions, and this article discusses their synthesis pathways and functions in nutrient-stressed leaves. Integrating knowledge from genetics, molecular biology, ecophysiology, and plant nutrition, the mechanisms and reasons for foliar anthocyanin accumulation under nutritional stress are deduced. Further research can utilize this knowledge to use leaf pigments as bioindicators for demand-oriented fertilizer application, benefiting the environment in the face of increasing climate crisis impacts on crop performance.
Article
Plant Sciences
Anket Sharma, Sukhmeen Kaur Kohli, Kanika Khanna, Muthusamy Ramakrishnan, Vinod Kumar, Renu Bhardwaj, Marian Brestic, Milan Skalicky, Marco Landi, Bingsong Zheng
Summary: This review summarizes the latest research on the roles of salicylic acid in salt-stressed plants, aiming to provide a comprehensive understanding of the physiological, biochemical, and molecular mechanisms mediated by salicylic acid during salt stress. It also highlights the potential beneficial effects of salicylic acid supplementation and directs future research on this topic.
JOURNAL OF PLANT GROWTH REGULATION
(2023)
Article
Engineering, Environmental
Zuzana Lukacova, Boris Bokor, Silvia Vavrova, Katarina Soltys, Marek Vaculik
Summary: The study found that plant responses to arsenic toxicity are diverse, depending on the dose of arsenic and duration of exposure. There is a close relationship between photosynthetic pigments and peroxidase expression, and the accumulation of As in roots and shoots correlates with peroxidase activity.
JOURNAL OF HAZARDOUS MATERIALS
(2021)
Article
Plant Sciences
Mona F. A. Dawood, Md. Tahjib-Ul-Arif, Abdullah Al Mamun Sohag, Arafat Abdel Hamed Abdel Latef, Marwa M. Ragaey
Summary: The study revealed that pre-treatment with allantoin significantly mitigated the toxic effects of UVC stress on tomato plants by enhancing chlorophyll, soluble protein, and soluble carbohydrate contents, leading to improved plant growth and biomass. Furthermore, allantoin pre-treatment also increased endogenous allantoin and allantoate content, as well as various antioxidants, resulting in reduced oxidative stress markers compared to only stressed plants.
Review
Plant Sciences
Anna Ekner-Grzyb, Anna Duka, Tomasz Grzyb, Isabel Lopes, Jagna Chmielowska-Bak
Summary: Pollution of the environment with plastic is a significant concern in the modern world. Despite recycling methods, a substantial amount of plastic is still deposited in the environment. Nanoplastic, in particular, poses a serious danger as it can be effectively taken up and transported within organisms. It has been found to exert toxic effects on plants, mainly through oxidative response.
FRONTIERS IN PLANT SCIENCE
(2022)
Article
Plant Sciences
Magdalena Matic, Rosemary Vukovic, Karolina Vrandecic, Ivna Stolfa Camagajevac, Jasenka Cosic, Ana Vukovic, Kristina Sabljic, Nikolina Sabo, Kresimir Dvojkovic, Dario Novoselovic
Summary: The study indicated that wheat variety, nitrogen level, and Fusarium treatment significantly affected oxidative status and antioxidative response. Fusarium treatment increased activities of some antioxidative enzymes at low nitrogen levels, while activities of antioxidative enzymes were mostly decreased at high nitrogen levels due to Fusarium treatment.
Article
Environmental Sciences
Magin Gonzalez-Moscoso, Antonio Juarez-Maldonado, Gregorio Cadenas-Pliego, Diana Meza-Figueroa, Bhaskar SenGupta, Nadia Martinez-Villegas
Summary: This study investigates the effect of arsenic (As) contamination on tomato plants and the potential use of silicon nanoparticles (Si NPs) to mitigate this effect. The results show that higher concentrations of As in irrigation water lead to greater uptake and translocation of As in tomato plants. However, the application of Si NPs reduces As translocation and tomato yield. The increased production of photosynthetic pigments and improved enzymatic activity suggest that Si NPs can help tomato plants adapt to high concentrations of As.
ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
(2022)
Review
Plant Sciences
Ana P. C. Cesar, Francisco E. S. Lopes, Francisca F. N. Azevedo, Yago O. Pinto, Claudia R. Andrade, Felipe P. Mesquita, Gabrielly O. Silva, Cleverson D. T. Freitas, Pedro F. N. Souza
Summary: Bioactive peptides derived from plant protein sequences have various biotechnological applications, including treating oxidation-related diseases. These molecules can interact with specific receptors in human cells, modulating metabolic functions and improving global public health. Antioxidant peptides derived from plant proteins have bioactivities that are important for human health, but further studies are needed to understand their mechanisms, bioavailability, and properties. Scientific reviews are necessary to enhance scientific knowledge in this growing area supported by bioinformatics, providing a significant reference for the development of new antioxidant peptides.
PHYTOCHEMISTRY REVIEWS
(2023)
Article
Plant Sciences
Julie Oustric, Stephane Herbette, Raphael Morillon, Jean Giannettini, Liliane Berti, Jeremie Santini
Summary: This study found that the tolerance of common clementine scion to nutrient deficiency can be improved by specific rootstock combinations, especially using Citrumelo 4475 (C/CM4x) and FlhorAG1 (C/FL4x). These combinations showed less foliar damage, fewer changes in photosynthetic processes, and better antioxidant systems.
FRONTIERS IN PLANT SCIENCE
(2021)
Article
Plant Sciences
Farah Nisar, Bilquees Gul, Irfan Aziz, Abdul Hameed, Todd Egan
Summary: This study found differential growth and hydrogen peroxide homeostasis in A. indicum plants emerged from heteromorphic seeds, with different responses in antioxidant enzymes and non-enzymatic antioxidants observed between plants from small and large seeds.
PLANT PHYSIOLOGY AND BIOCHEMISTRY
(2021)
Article
Plant Sciences
Vijay Kumar, Roshani Gupta, Rajesh Kumar Tewari
Summary: This study aimed to identify zinc-efficient and zinc-inefficient rice cultivars and characterize their responses to zinc deficiency through root growth and biochemical analysis. The findings revealed that zinc-efficient cultivars exhibited higher stress tolerance potential and biochemical characteristics under zinc-deficient conditions.
JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION
(2022)
Article
Biochemistry & Molecular Biology
Afaf Beloucif, Zine Kechrid, Ahmed Mohamed Ali Bekada
Summary: This study found that zinc deficiency had negative impacts on the weight and biochemical parameters of diabetic animals, while sesame oil supplementation could improve these indicators. Sesame oil was effective in mitigating the oxidative stress caused by zinc deficiency in diabetes through its potent antioxidant potential.
BIOLOGICAL TRACE ELEMENT RESEARCH
(2022)
Article
Plant Sciences
Juan D. Franco-Navarro, Pablo Diaz-Rueda, Carlos M. Rivero-Nunez, Javier Brumos, Alfredo E. Rubio-Casal, Alfonso de Cires, Jose M. Colmenero-Flores, Miguel A. Rosales
Summary: Chloride has been redefined as a beneficial macronutrient for plants, improving water use efficiency, nitrogen utilization, and carbon dioxide uptake. It enhances leaf cell growth, osmoregulation, and reduces water consumption without affecting photosynthetic efficiency. Adequate chloride nutrition can enhance plant drought resistance through a combination of water deficit avoidance and tolerance mechanisms, ultimately promoting more sustainable and resilient agriculture.
JOURNAL OF EXPERIMENTAL BOTANY
(2021)
Article
Agronomy
Francisco Javier Lopez-Moreno, Santiago Atero-Calvo, Eloy Navarro-Leon, Begona Blasco, Teresa Soriano, Juan Manuel Ruiz
Summary: The study found that the Brassica pellets and Dazomet treatments were the most effective in mitigating the damage caused by the decline syndrome.
Article
Chemistry, Multidisciplinary
Juan Nicolas-Espinosa, Pablo Garcia-Gomez, Juan J. Rios, Abel Piqueras, Gloria Barzana, Micaela Carvajal
Summary: Nanoencapsulation with proteoliposomes from natural membranes is proposed for efficient delivery of mineral nutrients into plant tissues, and was found to significantly increase boron concentration in leaves and promote the expression of aquaporins and boron transporters in sweet potato plants. Metabolomics analysis indicated a potential relationship between carbohydrate levels and energy requirements for transporter expression.
APPLIED SCIENCES-BASEL
(2022)
Article
Agronomy
Eloy Navarro-Leon, Francisco Javier Lopez-Moreno, Miguel Angel Fernandez, Juan Jesus Maldonado, Jose Yanez, Begona Blasco, Juan Manuel Ruiz
Summary: Calcium is an essential nutrient for plant growth, particularly for the development and quality of fruits. The study demonstrates that BRANDT(R) MANNI-PLEX(R) Ca effectively increases shoot biomass and photosynthesis performance, enhances calcium accumulation and improves fruit quality of pepper plants. Additionally, it significantly reduces the incidence of calcium physiopathies.
Article
Biochemistry & Molecular Biology
Valeria Paradisone, Eloy Navarro-Leon, Alfonso Albacete, Juan M. M. Ruiz, Sergio Esposito, Begona Blasco
Summary: Adequate availability of zinc is crucial for plant growth, but both deficiency and toxicity can limit crop yields. This study found that the application of CaSiO3 improved barley plants' tolerance to zinc imbalances, reducing oxidative stress and enhancing phytohormonal responses and TCA enzyme activities.
Article
Agriculture, Multidisciplinary
Eloy Navarro-Leon, Francisco Javier Lopez-Moreno, Elisabet Borda, Candido Marin, Nuria Sierras, Begona Blasco, Juan Manuel Ruiz
Summary: This study analyzed the effects of two l-alpha-amino acid-based biostimulants on lettuce plants and found that both biostimulants increased biomass production, enhanced photosynthetic activity, nitrate and total nitrogen accumulations, and nitrogen use efficiency, making them suitable for nitrogen-limited and intensive agricultural areas.
JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE
(2022)
Article
Agronomy
Camila Vanessa Buturi, Leo Sabatino, Rosario Paolo Mauro, Eloy Navarro-Leon, Begona Blasco, Cherubino Leonardi, Francesco Giuffrida
Summary: This experiment investigated the effects of different Fe concentrations supplied as Fe-HBED on lettuce yield and compositional traits. The results showed that the addition of Fe-HBED reduced aboveground biomass but increased dry matter content. Fe2 treatment maximized the concentration of nutrients, antioxidants, and Fe in leaves.
Article
Agronomy
Ali Ahmad, Eloy Navarro-Leon, Maria Jose Izquierdo-Ramos, Juan Jose Rios, Begona Blasco, Ivan Navarro-Morillo, Juan Manuel Ruiz
Summary: The use of biostimulants can help stimulate plant growth and reduce the negative impacts of stresses, resulting in higher crop yields. The study evaluated the efficacy of RAZORMIN (R) as a biostimulant in promoting plant growth and mitigating the stress caused by the fungicide azoxystrobin. The application of RAZORMIN (R) was found to significantly improve various physiological processes related to growth and stress mitigation, leading to increased growth and better plant health.
Article
Plant Sciences
Procopio Peinado-Torrubia, Rosario alvarez, Marta Lucas, Juan D. D. Franco-Navarro, Francisco J. J. Duran-Gutierrez, Jose M. Colmenero-Flores, Miguel A. A. Rosales
Summary: Chloride (Cl-) and nitrate (NO3-) are closely related anions involved in plant growth. It has been traditionally believed that chloride antagonizes nitrate uptake and accumulation in plants. However, recent studies have shown that chloride nutrition at beneficial macronutrient levels can improve nitrogen use efficiency (NUE) in plants. The underlying biochemical mechanisms of how beneficial chloride nutrition improves NUE are poorly understood.
FRONTIERS IN PLANT SCIENCE
(2023)
Article
Agronomy
Santiago Atero-Calvo, Juan Jose Rios, Eloy Navarro-Leon, Juan M. Ruiz, Begona Blasco
Summary: This study characterized the physiological and histological changes in Brassica rapa mutant plants with ESB1 mutation and evaluated its potential use in selenium biofortification and cadmium phytoremediation. The mutant showed an increase in root suberin, influencing water use efficiency and mineral element transport. Although no significant differences were observed in selenium accumulation, ESB1 mutation reduced cadmium translocation and increased iron and copper uptake.
Article
Horticulture
Ivan Navarro-Morillo, Valeria Navarro-Perez, Rafael Perez-Millan, Eloy Navarro-Leon, Begona Blasco, Jose Maria Camara-Zapata, Francisco Garcia-Sanchez
Summary: The industrial washing of corn grain during its milling generates a residue known as corn steep liquor (CSL), which is rich in nutrients that can promote plant growth. This study examined the effects of two CSL products (CSL-H and CSL-B) on pepper plants when applied through foliar and root application. Both methods increased plant size, with root application being more effective. The CSL products were found to enhance hormone synthesis, CO2 assimilation rate, and amino acid concentrations. Root application of CSL-H also increased the concentrations of specific amino acids. The results suggest that these products stimulate plant growth through hormone regulation and carbon and nitrogen metabolism.
Article
Horticulture
Alvaro F. Garcia-Rodriguez, Francisco J. Moreno-Racero, Jose M. Garcia de Castro Barragan, Jose M. Colmenero-Flores, Nicolas Greggio, Heike Knicker, Miguel A. Rosales
Summary: This study evaluated the effect of partially replacing peat with biochar sourced from vineyard pruning as plant growing substrates. The results showed that substituting 30% of peat with biochar improved plant growth and nitrogen use efficiency, delayed seed germination, and increased water holding capacity and nutrient use efficiency.
Article
Horticulture
Ivan Navarro-Morillo, Francisco Garcia-Sanchez, Jose Maria Camara-Zapata, Eloy Navarro-Leon, Maria Jose Izquierdo-Ramos, Begona Blasco, Juan Manuel Ruiz
Summary: This study evaluated the effects of spraying the protective product Archer((R)) Eclipse on sunburn damage in cucumber plants. The results showed that spraying Archer((R)) Eclipse reduced sunburn symptoms, increased plant biomass, and improved leaf temperature, photosynthesis performance, and chlorophyll concentration.
Article
Plant Sciences
Jingqiu Xia, Jiawen Liang, Mengmeng Yu, Rui Wang, Chen Sun, Huishan Song, Qinghua Xu, Jing Cang, Yuying Wang, Da Zhang
Summary: The MED complex acts as a bridge to regulate transcription by connecting transcription factors and specific gene promoters. This study demonstrates the important role of MED25 in freezing tolerance in wheat, possibly through its interaction with the jasmonate signaling pathway and cold-responsive genes.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Asier R. Larrinaga, Luis Sampedro, Rafael Zas
Summary: This study investigated the allocation to growth, reproduction, and defence in maritime pine under different resource availability and simulated herbivory treatments. The results showed that fertilization increased tree growth and seed quantity but not seed quality. Needle clipping and methyl-jasmonate treatment increased needle resin and phenol concentrations. Overall, there were complex interactions among the life-history dimensions, suggesting that pairwise approaches are insufficient to unravel these complexities.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Shuang Han, Shuxian Li, Ya Li, Qingchen Zhang, Yuanyuan Xu, Wenjing Wang, Xiao Qin Zhu, Dongli Pei
Summary: The xanthophyll cycle plays a significant role in protecting plants from membrane peroxidation induced by intense light exposure. This study identified 240 differentially expressed genes associated with respiratory chain, lipid metabolism, antioxidant activity, and flavonoid metabolism. The overexpression of the CmBCH1 gene resulted in the upregulation of genes involved in scavenging reactive oxygen species and encoding antioxidants, leading to the accumulation of xanthophyll, zeaxanthin, chlorophylls, and anthocyanins. The study highlighted the potential of BCH1 in regulating the xanthophyll cycle and enhancing tolerance to intense light stress in transgenic plants.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Yuzhu Ding, Hejun Ren, Xinyu Hao, Ruonan Zhang, Jianjun Hao, Jinliang Liu, Hongyu Pan, Yan Wang
Summary: This study demonstrated that co-expressing two exogenous genes, tfdB and bphC, in Arabidopsis thaliana improved the tolerance and removal efficiency of PCB28. Transgenic plants also exhibited increased enzymatic activities under PCB28 stress. The co-expression of tfdB and bphC in A. thaliana resulted in nearly twofold increase in PCB28 removal rates from soil. This research suggests that co-expressing two genes holds great potential for enhancing phytoremediation efficiency and mitigating PCB-induced toxicity stress on plants.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Nosheen Kabir, Sumbal Wahid, Shoaib Ur Rehman, Ghulam Qanmber
Summary: Trichomes are specialized plant structures that protect plants and are regulated by complex gene networks and signaling pathways. Gene expression, cell cycle regulation, and differentiation determine whether cells become trichomes. Transcription factors, epigenetic modifications, and phytohormones play important roles in trichome development. The integration of phytohormonal and transcriptional networks contributes to the diversity and adaptability of trichomes in plants.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Enrique Mateos-Naranjo, Jesus Alberto Perez-Romero, Giacomo Puglielli, Javier Lopez-Jurado, Jennifer Mesa-Marin, Eloisa Pajuelo, Ignacio David Rodriguez-Llorente, Susana Redondo-Gomez
Summary: The impact of multifactorial abiotic stress combinations on plant functional responses remains controversial. The halophyte Salicornia ramosissima showed unique functional responses depending on the specific stress factors involved. Under extreme conditions, there was a more negative impact on plant functional traits, but the presence of beneficial microorganisms, especially in combination with elevated atmospheric CO2 concentration, mitigated these negative effects.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Mengjiao Ruan, Wenliang He, Rui He, Xiangxiang Wang, Jinxin Wei, Yujie Zhu, Ruiling Li, Zhijun Jiang, Xiaofan Na, Xiaomin Wang, Yurong Bi
Summary: The study reveals the important role of AOX2 in Arabidopsis seed germination by regulating ABA signal and ROS homeostasis under salt stress. Additionally, ABI3/ABI4 are essential for salt-induced AOX2 expression.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Ning Li, Peiyao Yu, Yanling Zeng, Jiali Chen, Wenhai Yang, Guannan Qin, Shenxiu Du, Xiao Han, Li-Jun Huang
Summary: In eukaryotic cells, epigenetic modifications of DNA and histones play a crucial role in gene expression regulation. ROXY19, a plant-specific CC-type glutaredoxin, was found to strongly repress a subset of genes regulated by class II TGA factors through its association with the TPL/TPR family. The ectopic expression of ROXY19 in Arabidopsis plants led to hypersensitivity to xenobiotic chemicals due to the silencing of detoxification pathway genes.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Yang Li, Chenyang Feng, Yijing Xing, Meng Li, Xiaoning Wang, Qingjie Du, Huaijuan Xiao, Juanqi Li, Jiqing Wang
Summary: In this study, researchers found that CsNLP1 gene in cucumber plays an important role in nitrogen utilization. The study also revealed the regulation mechanism of CsNLP1 in cucumber growth and nitrogen assimilation.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Lei Chen, Cheng Jiang, Li Ye, Yue Gao, Xilin Hou
Summary: This study identified and characterized 163 C2H2-type zinc finger proteins in non-heading Chinese cabbage. Two of these proteins, BcZAT12 and BcZAT10, were found to be closely related to cold tolerance and acted as transcriptional repressors in regulating cold resistance. Furthermore, BcZAT12 was shown to directly bind to the promoter of BcCBF1 and inhibit its activity. Additionally, interactions between BcZAT12 and other proteins such as BcABF2/4 were observed. These findings provide insights into the functional roles and regulatory mechanisms of C2H2-ZFPs in non-heading Chinese cabbage under cold stress.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Ommolbanin Tourajzadeh, Halimeh Piri, Amir Naserin, Mohammad mahdi Cahri
Summary: The combination of NB and reduced irrigation water depth can mitigate the negative effects of salinity and drought stresses on quinoa and improve its water productivity. The use of NB up to 2% alleviated salinity and drought stress and increased yield, while decreasing salinity and irrigation water depth increased water productivity. The appropriate use of NB can reduce the negative effects of stress and promote the sustainable production of quinoa.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Jing Li, Yujie Wu, Xiaohui Feng, Tabassum Hussain, Kai Guo, Xiaojing Liu
Summary: This study investigated the growth and physiological responses of cherry tomatoes under different salt conditions and found that nonuniform salinity conditions improved photosynthetic characteristics, water use efficiency, and fruit yield. These findings are important for improving tomato productivity on salt-affected lands.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Ruonan Li, Ruying Wang, Meng Li, Yunpu Zheng, Xiaxiang Zhang, Zhimin Yang, Jingjin Yu
Summary: The study found that elevated CO2 can increase stolon growth and carbohydrate accumulation in stolon nodes and internodes. Foliar application of auxin enhances this effect, while auxin transport inhibitor has no effect.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Jian-Jun Tao, Cui-Cui Yin, Yang Zhou, Yi-Hua Huang, Shou-Yi Chen, Jin-Song Zhang
Summary: Soil salinization is a major obstacle for agriculture sustainability, as it severely affects plant growth and crop yield. Ethylene, a stress hormone, plays a crucial role as a signal molecule in coordinating plant growth and stress response in the model plant Arabidopsis. However, the roles and mechanisms of ethylene in most crop plants under salinity remain undefined. This review summarizes the universal roles of ethylene and focuses on its divergent roles in rice and other crop species under salinity, particularly in terms of ethylene biosynthesis and signal transduction. The contradictions between ethylene production and signaling in salt response are also discussed.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
Article
Plant Sciences
Chang Guo, Xiaona Wang, Qi Wang, Zipeng Zhao, Bing Xie, Lang Xu, Ruijie Zhang
Summary: This review provides an overview of the effects of ozone pollution on plant secondary metabolism. It explores the role of plant secondary metabolism in defense against ozone stress and adaptation to ozone-polluted environments, while summarizing the severity of ozone pollution.
ENVIRONMENTAL AND EXPERIMENTAL BOTANY
(2024)
