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Abiotic stress tolerance in plants

Guest Editors

Claudio Inostroza-Blancheteau, PhD, Catholic University of Temuco, Chile
Isabel Marques, PhD, University of Lisbon, Portugal
José M. Mulet, PhD, Polytechnic University of Valencia (UPV), Spain


BMC Plant Biology presents contributions to the Collection Abiotic stress tolerance in plants. This collection brings together original research articles that cover the emerging developments in plant biology, biochemistry, structural biology, molecular biology, and genetics applied to plant abiotic stress research. 


New Content ItemThis Collection supports and amplifies research related to SDG 2: Zero Hunger, and SDG 15: Life on Land.

Meet the Guest Editors

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Claudio Inostroza-Blancheteau, PhD, Catholic University of Temuco, Chile

Dr Inostroza-Blancheteau's research is centered on plant molecular physiology, with a specific focus on the identification and characterization of genes, and secondary metabolism function, regulation, and its applications. His research delves into various aspects, including understanding resistance and tolerance mechanisms in plants facing abiotic stressors such as aluminium toxicity, manganese excess, and UV radiation. Additionally, his work explores the role of natural plant products, particularly secondary metabolites found in native plant species, like native potatoes and berries. Dr Inostroza-Blancheteau has also conducted studies on plant nutrition and the agronomical yield of agricultural plant species that thrive in acid soil in Southern Chile. His substantial contributions to the field are evident through the publication of over 80 scientific articles in esteemed journals and publishers. Dr Inostroza-Blancheteau is the Director of the Research Nucleus in Food Production and oversees the Doctoral Program in Agricultural Sciences at the Faculty of Natural Resources at the Catholic University of Temuco in Temuco (Chile).

Isabel Marques, PhD, University of Lisbon, Portugal

Dr Marques's research encompasses various facets of plant biology, spanning from the molecular to ecosystem levels. Her interests extend to the structure, function, diversity, genetics, evolution, and systematics of all plant groups, as well as related organisms such as cyanobacteria, algae, fungi, and lichens. A focal point of Dr Marques's work involves investigating the impacts of hybridization and polyploidy on species diversification and extinction. Given the inherent complexity of evolutionary questions, she employs a diverse range of techniques, including phylogenetic, demographic, ecological, and modeling tools to make inferences about the evolution of lineages.

José M. Mulet, PhD, Polytechnic University of Valencia (UPV), Spain

Dr Mulet is a full professor of biotechnology at the Polytechnic University of Valencia (UPV) and leads a laboratory at the Institute of Molecular and Cellular Biology of Plants. With a background in chemistry and a PhD in biochemistry and molecular biology from the University of Valencia, he pursued postdoctoral research at the University of Basel in Switzerland. His current research focus involves the development of plants tolerant to abiotic stress. Additionally, he is engaged in characterizing the molecular basis of biostimulants and investigating the regulation of potassium fluxes in guard cells. Beyond their academic contributions, Dr Mulet has authored 10 books and serves as a science columnist for "El País." He actively participates in the GMO/organic debate within Spanish-speaking countries.

About the Collection

BMC Plant Biology highlights contributions to the Collection Abiotic stress tolerance in plants. In the natural environment, plants deal with a range of abiotic stresses, linked for instance to changes in light, temperature, (micro/macro) nutrient concentration, drought and salinity. Since abiotic factors can be superimposed on each other, and largely variable in terms of magnitude and frequency of change, coping with abiotic stress represents a major challenge and limiting factor for crop productivity and sustainability. As abiotic stresses can severely affect plant fitness, plants have evolved sophisticated, interconnected mechanisms to efficiently respond to abiotic cues, and regulate growth, development and yield.
 
However, tolerance against abiotic stress is a complex process, where the underlying mechanisms and their regulation remain often poorly understood. Revealing the mechanisms by which plants sense and cope with abiotic stress, can affect how we understand, and potentially optimize, relevant processes like crop yield, abiotic stress response, resilience and signaling, photosynthesis regulation, cellular metabolism, nutrient homeostasis and uptake, gene expression in response to stress.
 
While understanding how plants respond to and tolerate abiotic stresses has fundamental relevance, it could also be utilized to develop novel multi-disciplinary approaches for enhancing crop yield and quality, protecting terrestrial ecosystems and biodiversity, and implementing sustainable agricultural practices in the current climate change scenario. In support of UN Sustainable Development Goals ‘Zero Hunger’ (SDG 2) and ‘Life on Land’ (SDG 15), the Editors of BMC Plant Biology launched a Collection on ‘Abiotic stress tolerance in plants’. This collection brings together original research articles that cover the emerging developments in plant biology, biochemistry, structural biology, molecular biology, and genetics applied to plant abiotic stress research. We present research in the field that explored, but are not limited to, the following topics:

  • Mechanisms of plant response to abiotic stress
  • Physiological, biochemical and molecular responses of plants to abiotic stress or multiple abiotic stress conditions, under different growth conditions and developmental stages
  • Abiotic stress signaling and signal transduction mechanisms in plants
  • Plant genetic and phenotypic diversity in abiotic stress tolerance/resilience
  • Exploring the natural resilience to abiotic stress in diverse germplasms
  • Mechanisms and regulation of plant response to combined abiotic stresses
  • Photosynthesis regulation and light-harvesting regulation
  • Response and resilience to drought stress and salinity
  • Macro/micro-nutrient homeostasis and uptake
  • Heavy metal toxicity
  • Molecular breeding for abiotic stress tolerance in plants
  • Identification, expression, and functional validation of stress-related genes and transcription factors
  • Epigenetic mechanisms and regulation in plant abiotic stress response and tolerance
  • Symbiotic interactions to increase abiotic stress tolerance in plants
  • Biostimulants and natural products to increase abiotic stress tolerance in plants
  • Multi-Omics and genome editing technologies, and systems biology approaches for plant/crop abiotic stress resilience
  • Genetic engineering and biotechnological applications to enhance abiotic stress tolerance in plants

Image credit: Isabel B. Meyer / stock.adobe.com

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  1. Secretory carrier membrane proteins (SCAMPs) form a family of integral membrane proteins and play a crucial role in mediating exocytosis in both animals and plants. While SCAMP genes have been studied in several ...

    Authors: Zhaojie He, Xiaohu Ma, Qianhao- Zhu, Shuaishuai Cheng, Feng Liu, Tao Zhang, Caixia Zhang, Jianbin Li, Xianpeng Xiong and Jie Sun
    Citation: BMC Plant Biology 2024 24:870
    Content type: Research Published on:

  2. Vermicompost contains humic acids, nutrients, earthworm excretions, beneficial microbes, growth hormones, and enzymes, which help plants to tolerate a variety of abiotic stresses. Effective microorganisms (EM)...

    Authors: Neveen B. Talaat and Sameh A. M. Abdel-Salam
    Citation: BMC Plant Biology 2024 24:866
    Content type: Research Published on:

  3. This research was conducted to investigate the efficacy of putrescine (PUT) treatment (0, 1, 2, and 4 mM) on improving morphophysiological and biochemical characteristics of Zinnia elegans “State Fair” flowers un...

    Authors: Meisam Mohammadi, Delaram Nezamdoost, Fatemeh Khosravi Far, Faisal Zulfiqar, Ghasem Eghlima and Fatame Aghamir
    Citation: BMC Plant Biology 2024 24:865
    Content type: Research Published on:

  5. Developmental leaf senescence (DLS) is an irreversible process followed by cell death. Dark-induced leaf senescence (DILS) is a reversible process that allows adaptations to changing environmental conditions. ...

    Authors: Elżbieta Rudy, Umesh Kumar Tanwar, Zofia Szlachtowska, Magda Grabsztunowicz, Magdalena Arasimowicz-Jelonek and Ewa Sobieszczuk-Nowicka
    Citation: BMC Plant Biology 2024 24:863
    Content type: Research Published on:

  6. Reed canary grass has been identified as a suitable species for restoring plateau wetlands and understanding plant adaptation mechanisms in wetland environments. In this study, we subjected a reed canary grass...

    Authors: Xuejie Jia, Yi Xiong, Yanli Xiong, Daxu Li, Xiaofei Ji, Xiong Lei, Minghong You, Shiqie Bai, Jianbo Zhang and Xiao Ma
    Citation: BMC Plant Biology 2024 24:857
    Content type: Research Published on:

  7. Casuarina equisetifolia trees are used as windbreaks in subtropical and tropical coastal zones, while C. equisetifolia windbreak forests can be degraded by seawater atomization (SA) and seawater encroachment (SE)...

    Authors: Shike Zhang, Guobing Wang, Weiwei Yu, Long Wei, Chao Gao, Di Li, Lili Guo, Jianbo Yang, Shuguang Jian and Nan Liu
    Citation: BMC Plant Biology 2024 24:854
    Content type: Research Published on:

  8. This study evaluated the responses of sweet potatoes to Cadmium (Cd) stress through pot experiments to theoretically substantiate their comprehensive applications in Cd-polluted agricultural land. The experime...

    Authors: Tengfei Ran, Guofan Cao, Lili Xiao, Yongpeng Li, Ru Xia, Xueting Zhao, Yun Qin, Peng Wu and Shanjun Tian
    Citation: BMC Plant Biology 2024 24:850
    Content type: Research Published on:

  9. Calcium-dependent protein kinase (CDPK) plays a key role in cotton tolerance to abiotic stress. However, its role in cotton heat stress tolerance is not well understood. Here, we characterize the GhCDPK gene fami...

    Authors: Wen-Ben Lv, Cheng-Cheng Miao, Cheng-Hao Du, Ya-Ting Cui, Man Liu, Mei-Chen Shen, Anane Gideon Owusu, Ning Guo, Da-Hui Li and Jun-Shan Gao
    Citation: BMC Plant Biology 2024 24:842
    Content type: Research Published on:

  10. Global warming is a leading environmental stress that reduces plant productivity worldwide. Several beneficial microorganisms reduce stress; however, the mechanism by which plant–microbe interactions occur and...

    Authors: Shifa Shaffique, Anis Ali Shah, Odongkara Peter, Md. Injamum-Ul-Hoque, Hosam O. Elansary, Sang-Mo kang, Tiba Nazar Ibrahim Al Azzawi, Byung-Wook Yun and In-Jung Lee
    Citation: BMC Plant Biology 2024 24:827
    Content type: Research Published on:

  11. In breeding programs, stress memory in plants can develop drought stress tolerance. Memory stress, as an approach, can keep stress data by activating tolerance mechanisms. This research was conducted to evalua...

    Authors: Elham Faghani, Amenehsadat Hashemi, Mina Kazemian and Mohammad Hossein Razzaghi
    Citation: BMC Plant Biology 2024 24:825
    Content type: Research Published on:

  12. To address salinity stress in plants in an eco-friendly manner, this study investigated the potential effects of salinity-resistant bacteria isolated from saline agricultural soils on the growth of cucumber (Cucu...

    Authors: Zeinab Fotoohiyan, Fatemeh Samiei, Ali Salehi Sardoei, Fatemeh Kashi, Mansour Ghorbanpour and Khalil Kariman
    Citation: BMC Plant Biology 2024 24:821
    Content type: Research Published on:

  13. Salt stress is a major abiotic factor that affects the distribution and growth of plants. Asparagus officinalis is primarily resistant to salt stress and is suitable for cultivation in saline-alkali soil.

    Authors: Shuangshuang Wen, Jiali Ying, Youju Ye, Yunfei Cai and Renjuan Qian
    Citation: BMC Plant Biology 2024 24:819
    Content type: Research Published on:

  14. Astragalus cicer L. is a perennial rhizomatous legume forage known for its quality, high biomass yield, and strong tolerance to saline-alkaline soils. Soil salinization is a widespread environmental pressure. To ...

    Authors: Yujuan Zhang, Wenke Dong, Huiling Ma, Chunxu Zhao, Fuqin Ma, Yan Wang, Xiaolin Zheng and Minhui Jin
    Citation: BMC Plant Biology 2024 24:817
    Content type: Research Published on:

  15. Suaeda australis is one of typical halophyte owing to high levels of salt tolerance. In addition, the bZIP gene family assumes pivotal functions in response to salt stress. However, there are little reports avail...

    Authors: Yinquan Qu, Ji Wang, Tianxiang Gao, Caihui Qu, Xiaoyun Mo and Xiumei Zhang
    Citation: BMC Plant Biology 2024 24:816
    Content type: Research Published on:

  16. Climate change has become a concern, emphasizing the need for the development of crops tolerant to drought. Therefore, this study is designed to explore the physiological characteristics of quinoa that enable ...

    Authors: Sayyed Mohammad Mirsafi, Ali Reza Sepaskhah and Seyed Hamid Ahmadi
    Citation: BMC Plant Biology 2024 24:809
    Content type: Research Published on:

  17. Cadmium (Cd) is a biologically non-essential heavy metal, a major soil pollutant, and extremely harmful to plants. The phytohormone methyl jasmonate (MeJA) plays an important role in plant heavy-metal resistan...

    Authors: Xiaofang Yu, Yujia Liu, Liu Yang, Yujing Liu, Chunyu Fan, Zihan Yang, Yuhan Xu, Xiaoxuan Zeng, Xue Xiao, Lijuan Yang, Ting Lei, Mingyan Jiang, Xi Li, Suping Gao and Qi Tao
    Citation: BMC Plant Biology 2024 24:807
    Content type: Research Published on:

  18. The mitogen-activated protein kinase (MAPK) cascade is crucial cell signal transduction mechanism that plays an important role in plant growth and development, metabolism, and stress responses. The MAPK cascad...

    Authors: Hao Liu, Xianyang Li, Fei He, Mingna Li, Yunfei Zi, Ruicai Long, Guoqing Zhao, Lihua Zhu, Ling Hong, Shiqing Wang, Junmei Kang, Qingchuan Yang and Lin Chen
    Citation: BMC Plant Biology 2024 24:800
    Content type: Research Published on:

  19. With the progress of industrialization and urbanization, cadmium (Cd) pollution in farmland is increasingly severe, greatly affecting human health. Sunflowers possess high resistance to Cd stress and great pot...

    Authors: Xi Wang, Jinghui Zhang, Jie Shen, Linran Zhang, Peipei Wei, Ake Liu and Huifang Song
    Citation: BMC Plant Biology 2024 24:792
    Content type: Research Published on:

  20. Salinity stress is one of the most important stress barriers to crop production worldwide. Developing and implementing new strategies against salinity stress is critical for increasing agricultural productivit...

    Authors: Türkan Oktay Bozaba and İbrahim Selçuk Kuru
    Citation: BMC Plant Biology 2024 24:788
    Content type: Research Published on:

  21. Soil salinity is one of the major abiotic stresses that threatens crop growth. Cotton has some degree of salt tolerance, known as the “pioneer crop” of saline-alkali land. Cultivation of cotton is of great sig...

    Authors: Liuchun Feng, Yu Chen, Tengyun Ma, Chenhui Zhou, Shifei Sang, Junhua Li and Shengdong Ji
    Citation: BMC Plant Biology 2024 24:787
    Content type: Research Published on:

  22. Chromium (Cr) toxicity significantly threatens agricultural ecosystems worldwide, adversely affecting plant growth and development and reducing crop productivity. Trehalose, a non-reducing sugar has been ident...

    Authors: Sadia Zafar, Inam Mehdi Khan, Muhammad Arslan Ashraf, Muhammad Zafar, Mushtaq Ahmad, Rizwan Rasheed, Ansar Mehmood and Khawaja Shafique Ahmad
    Citation: BMC Plant Biology 2024 24:783
    Content type: Research Published on:

  23. Sudden temperature drops, resulting from extreme weather events, often occur during the boll-setting period of cotton in Xinjiang, China, causing decreased expression of Bacillus thuringiensis (Bt) insecticidal p...

    Authors: Yuan Chen, Shu Dong, Yuyang Dai, Xiang Zhang, Dehua Chen, Yinglong Chen and Zhenyu Liu
    Citation: BMC Plant Biology 2024 24:781
    Content type: Research Published on:

  24. High temperature stress is one of the most severe forms of abiotic stress in alfalfa. With the intensification of climate change, the frequency of high temperature stress will further increase in the future, w...

    Authors: Juan Zhou, Xueshen Tang, Jiahao Li, Shizhuo Dang, Haimei Ma and Yahong Zhang
    Citation: BMC Plant Biology 2024 24:776
    Content type: Research Published on:

  25. Nitrogen (N) is a crucial element for increasing photosynthesis and crop yields. The study aims to evaluate the photosynthetic regulation and yield formation mechanisms of different nodulating peanut varieties...

    Authors: Pei Guo, Jingyao Ren, Xiaolong Shi, Anning Xu, Ping Zhang, Fan Guo, Yuanyuan Feng, Xinhua Zhao, Haiqiu Yu and Chunji Jiang
    Citation: BMC Plant Biology 2024 24:774
    Content type: Research Published on:

  26. Korla pear has a unique taste and aroma and is a breeding parent of numerous pear varieties. It is susceptible to Valsa mali var. pyri, which invades bark wounded by freezing injury. Its genetic relationships hav...

    Authors: Wenwen Xia, Saisai Wang, Xiaoyan Liu, Yifei Chen, Caixia Lin, Ruina Liu, Hailiang Liu, Jin Li and Jianbo Zhu
    Citation: BMC Plant Biology 2024 24:773
    Content type: Research Published on:

  27. Unfavorable temperatures significantly constrain the quality formation of Dendrobium officinale, severely limiting its food demand. Salicylic acid (SA) enhances the resistance of D. officinale to stress and posse...

    Authors: Wenhua Wang, Mingqiong Zheng, Zhijun Shen, Hongyan Meng, Lianghua Chen, Tiantian Li, Fucong Lin, Liping Hong, Zhikai Lin, Ting Ye, Ying Guo and Enming He
    Citation: BMC Plant Biology 2024 24:770
    Content type: Research Published on:

  28. Populus spp. is a crucial fast-growing and productive tree species extensively cultivated in the mid-latitude plains of the world. However, the impact of intensive cultivation management on gene expression in pla...

    Authors: Zhou Wang, Weixi Zhang, Changjun Ding, Yongxiu Xia, Zhengsai Yuan, Jiangtao Guo, Jinjin Yu, Bingyu Zhang and Xiaohua Su
    Citation: BMC Plant Biology 2024 24:759
    Content type: Research Published on:

  29. Constant-frequency ultrasonic treatment helped to improve seed germination. However, variable-frequency ultrasonic treatment on maize seed germination were rarely reported. In this study, maize seeds were expo...

    Authors: Min Gong, Meng Kong, Qiuyan Huo, Jiuxing He, Juan He, Zhuosheng Yan, Chun Lu, Yawen Jiang, Jiqing Song, Wei Han and Guohua Lv
    Citation: BMC Plant Biology 2024 24:758
    Content type: Research Published on:

  30. This study aimed to evaluate the suitability of using drain water as a source of irrigation and its effects along with salicylic acid on morphological, anatomical, physico-chemical as well as yield attributes ...

    Authors: Sheza Ayaz Khilji, Aqsa Rafique, Zahoor Ahmad Sajid, Mamoona Rauf, Anis Ali Shah, Shifa Shaffique and Mansour K. Gatasheh
    Citation: BMC Plant Biology 2024 24:754
    Content type: Research Published on:

  31. Present study assessed the growth of two plant species and ion uptake by them grown on different proportion of industrial solid waste and garden soil. The industrial waste having high concentration of chemical...

    Authors: Zafar Siddiq, Umair Azam, Muhammad Atif Irshad, Noor Mirza, Rab Nawaz, Muhammad Umar Hayyat, Ali Irfan, Abdulaziz Abdullah Alsahli, Mohammed Bourhia, Amare Bitew Mekonnen, Zulkifl Ahmed and Rabia Ghaffar
    Citation: BMC Plant Biology 2024 24:752
    Content type: Research Published on:

  32. LIM (Lineage-11 (LIN-11), Insulin-1 (ISL-1), and Mechanotransduction-3 (MEC-3)) genes belong to a family that hold ubiquitous properties contributing to organ, seed, and pollen development as well as developmenta...

    Authors: Taehoon Kim, Andrew Egesa, Claire Qin, Hannah Mather, Germán Sandoya and Kevin Begcy
    Citation: BMC Plant Biology 2024 24:751
    Content type: Research Published on:

  33. Chickpea is a key pulse crop grown in the spring in dryland regions. The cold resistance potential of chickpeas allows for the development of genotypes with varying sowing dates to take advantage of autumn and...

    Authors: Hamid Hatami Maleki, Hamid Hassaneian Khoshro, Homayoun Kanouni, Seyedeh Soudabeh Shobeiri and Behrouz Moradi Ashour
    Citation: BMC Plant Biology 2024 24:750
    Content type: Research Published on:

  34. Lead affects photosynthesis and growth and has serious toxic effects on plants. Here, the differential expressed proteins (DEPs) in D. huoshanense were investigated under different applications of lead acetate so...

    Authors: Cheng Song, Jun Dai, Yanshuang Ren, Muhammad Aamir Manzoor and Yingyu Zhang
    Citation: BMC Plant Biology 2024 24:748
    Content type: Research Published on:

  35. Abiotic stress, such as salinity, affects the photosynthetic apparatus of plants. It is reported that the use of selenium nanoparticles (Se NPs), and biochemical compounds such as chitosan (CS) increase the to...

    Authors: Reza Saeedi, Azam Seyedi, Majid Esmaeilizadeh, Neda Seyedi, Seyed Morteza Zahedi and Mohammad Reza Malekzadeh
    Citation: BMC Plant Biology 2024 24:745
    Content type: Research Published on:

  36. Soil contamination by heavy metals is a critical environmental challenge, with Pb being of particular concern due to its propensity to be readily absorbed and accumulated by plants, despite its lack of essenti...

    Authors: Maryam Mazaheri-Tirani, Bahareh Parsa Motlagh, Maryam Ahmadzadeh and Azam Seyedi
    Citation: BMC Plant Biology 2024 24:744
    Content type: Research Published on:

  37. In this study, various constraints of Cd toxicity on growth, morpho-anatomical characters along with physiological and biochemical metabolic processes of Solanum melongena L. plants were analyzed. Conversely, ame...

    Authors: Mansour K. Gatasheh, Anis Ali Shah, Zahra Noreen, Sheeraz Usman and Shifa Shaffique
    Citation: BMC Plant Biology 2024 24:742
    Content type: Research Published on:

  38. Daye No.3 is a novel cultivar of alfalfa (Medicago sativa L.) that is well suited for cultivation in high-altitude regions such as the Qinghai‒Tibet Plateau owing to its high yield and notable cold resistance. Ho...

    Authors: Xiaojian Pu, Yunjie Fu, Chengti Xu, Xiuzhang Li, Wei Wang, Kejia De, Xijie Wei and Xixi Yao
    Citation: BMC Plant Biology 2024 24:741
    Content type: Research Published on:

  39. Isopentenyltransferases (IPT) serve as crucial rate-limiting enzyme in cytokinin synthesis, playing a vital role in plant growth, development, and resistance to abiotic stress.

    Authors: Ye Ai, Yinglong Chen, Ning Wang, Jiaxing Li, Jinnan Liu, Liangying Shen, Xinbo Sun, Liebao Han and Yuehui Chao
    Citation: BMC Plant Biology 2024 24:734
    Content type: Research Published on:

  40. Abscisic acid (ABA) is a plant hormone that plays an important role in plant resistance to drought, salinity, cold, and pathogens. It is also important for regulating plant growth and development. Pyrabactin r...

    Authors: Guoxing Xue, Ailing He, Haizhu Yang, Lincao Song, Huan Li, Chengpeng Wu and Jingjun Ruan
    Citation: BMC Plant Biology 2024 24:725
    Content type: Research Published on:

  41. The increasing ambient temperature significantly impacts plant growth, development, and reproduction. Uncovering the temperature-regulating mechanisms in plants is of high importance, for increasing our fundam...

    Authors: Shekoufeh Ebrahimi Naghani, Ján Šmeringai, Barbora Pleskačová, Tereza Dobisová, Klára Panzarová, Markéta Pernisová and Hélène S. Robert
    Citation: BMC Plant Biology 2024 24:721
    Content type: Research Published on:

  42. Superoxide dismutase (SOD) can greatly scavenge reactive oxygen species (ROS) in plants. SOD activity is highly related to plant stress tolerance that can be improved by overexpression of SOD genes. Identifica...

    Authors: Kejia Qu, Jiqing Wang, Yukun Cheng, Bin Bai, Xianchun Xia and Hongwei Geng
    Citation: BMC Plant Biology 2024 24:716
    Content type: Research Published on:

  43. Festuca kryloviana is a significant native grass species in the Qinghai Lake region, and its low emergence rate is a primary factor limiting the successful establishment of cultivated grasslands. The region’s ari...

    Authors: Zhenghai Shi, Guoling Liang, Sida Li and Wenhui Liu
    Citation: BMC Plant Biology 2024 24:714
    Content type: Research Published on:

  44. Rice (Oryza sativa L.) is an essential food for half of the global population and is vital in maintaining global food security. Climate change, increasing population and recent incident of COVID pandemic has gene...

    Authors: Yasser Z. El-Refaee, Hany S. Gharib, Shimaa A. Badawy, Eman M. Elrefaey, Samira A.F. El-Okkiah, Mohamed K. Okla, María Gabriela Maridueña-Zavala, Hamada AbdElgawad and Amira M. El-Tahan
    Citation: BMC Plant Biology 2024 24:713
    Content type: Research Published on:

  45. Drought stress limits significantly the crop productivity. However, plants have evolved various strategies to cope with the drought conditions by adopting complex molecular, biochemical, and physiological mech...

    Authors: Ying-Jia Zhao, Chun-Ying Ma, Meng-Jing Zheng, Yan-Rong Yao, Li-Hua Lv, Li-Hua Zhang, Xiao-Xin Fu, Jing-Ting Zhang and Kai Xiao
    Citation: BMC Plant Biology 2024 24:705
    Content type: Research Published on:

  46. As crucial stages in the plant ontogeny, germination and seedling establishment under adverse conditions greatly determine staple crop growth and productivity. In the context of green technologies aiming to im...

    Authors: Hasna Ellouzi, Imen Ben Slimene Debez, Souhir Amraoui, Mokded Rabhi, Mohsen Hanana, Nouf M. Alyami, Ahmed Debez, Chedly Abdelly and Walid Zorrig
    Citation: BMC Plant Biology 2024 24:704
    Content type: Research Published on:

  47. Climate change exacerbates abiotic stresses, which are expected to intensify their impact on crop plants. Drought, the most prevalent abiotic stress, significantly affects agricultural production worldwide. Im...

    Authors: Pratapsingh S. Khapte, Sushil S. Changan, Pradeep Kumar, T. H. Singh, Ajay Kumar Singh, Jagadish Rane and K. Sammi Reddy
    Citation: BMC Plant Biology 2024 24:702
    Content type: Research Published on:

  48. Cold stress can impact plant biology at both the molecular and morphological levels. We cultivated two different types of tobacco seedlings using distinct seeding methods, observing significant differences in ...

    Authors: Xuan Tao, Lei Yang, Mingfa Zhang, Yangyang Li, Hanqian Xiao, Lingyi Yu, Chaowei Jiang, Zeyu Long and Yiyang Zhang
    Citation: BMC Plant Biology 2024 24:698
    Content type: Research Published on:

  49. Phosphorus (P) deficiency, a major nutrient stress, greatly hinders plant growth. Phosphate (Pi) uptake in plant roots relies on PHT1 family transporters. However, melon (Cucumis melo L.) lacks comprehensive iden...

    Authors: Pengli Li, Asad Rehman, Jing Yu, Jinyang Weng, Beibei Zhan, Yueyue Wu, Yidong Zhang, Liying Chang and Qingliang Niu
    Citation: BMC Plant Biology 2024 24:696
    Content type: Research Published on:

  50. Laccase (LAC) gene family plays a pivotal role in plant lignin biosynthesis and adaptation to various stresses. Limited research has been conducted on laccase genes in common beans.

    Authors: Tong Cheng, Chunyuan Ren, Jinghan Xu, Huamei Wang, Bowen Wen, Qiang Zhao, Wenjie Zhang, Gaobo Yu and Yuxian Zhang
    Citation: BMC Plant Biology 2024 24:688
    Content type: Research Published on:

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This Collection welcomes submission of original Research Articles. Should you wish to submit a different article type, please read our submission guidelines to confirm that type is accepted by the journal. Articles for this Collection should be submitted via our submission system, Snapp . During the submission process you will be asked whether you are submitting to a Collection, please select "Abiotic stress tolerance in plants" from the dropdown menu.

Articles will undergo the journal’s standard peer-review process and are subject to all of the journal’s standard policies. Articles will be added to the Collection as they are published.

The Editors have no competing interests with the submissions which they handle through the peer review process. The peer review of any submissions for which the Editors have competing interests is handled by another Editorial Board Member who has no competing interests.