Research Progress on endangered plants: a bibliometric analysis

Xu, Jie; Xiao, Pengnan; Li, Tingting; Wang, Zhengxiang

doi:10.1007/s10531-022-02392-y

Cited by 19 publications

(11 citation statements)

References 46 publications

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“…To collect a large amount of data on Brassicaceae plant research topics, we constructed a database of literature on Brassicaceae plant research topics over the past 20 years using the core ensemble of curated literature in the Web of Science (WOS), which is now widely accepted as a database source tool for bibliometric analysis ( Chen et al., 2022 ; Xu et al., 2022 ). In WOS, we set the subject term as “Brassicaceae” for searching, selected “Science Citation Index Expanded”, and “Social Sciences Citation Index” for the citation index, and selected the type of literature as “Article”.…”

Section: Methodsmentioning

confidence: 99%

Research progress on Brassicaceae plants: a bibliometrics analysis

Zhou,

Qin,

Hou

et al. 2024

Front. Plant Sci.

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The Brassicaceae is a worldwide family that produces ornamental flowers, edible vegetables, and oilseed plants, with high economic value in agriculture, horticulture, and landscaping. This study used the Web of Science core dataset and the CiteSpace bibliometric tool to quantitatively visualize the number of publications, authors, institutions, and countries of 3139 papers related to Brassicaceae plants from 2002 to 2022. The keywords and references were divided into two phases: Phase 1 (2002-2011) and Phase 2 (2012-2022) for quantitative and qualitative analysis. The results showed: An average annual publication volume of 149 articles, with an overall fluctuating upward trend; the research force was mainly led by Professor Ihsan A. Al-shehbaz from Missouri Botanical Garden; and the United States had the highest number of publications. In the first phase, research focused on the phylogeny of Brassicaceae plants, while the second phase delved into diverse research based on previous studies, research in areas such as polyploidy, molecular technique, physiology, and hyperaccumulator has been extended. Based on this research, we propounded some ideas for future studies on Brassicaceae plants and summarized the research gaps.

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Section: Methodsmentioning

confidence: 99%

Research progress on Brassicaceae plants: a bibliometrics analysis

Zhou,

Qin,

Hou

et al. 2024

Front. Plant Sci.

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“…Exposed and unprotected EMAS can allow pollutants to spread, particularly Se which is highly toxic to aquatic organisms and can even suppress photosynthesis in plants. 31,70 In severe cases, excessive Mn exposure can lead to Parkinson's disease and impairment of lung and liver function in workers. 69 Furthermore, excessive Mn can cause manganese poisoning in plants.…”

Section: Resource and Environmental Properties Of Emasmentioning

confidence: 99%

Recovery and Utilization of Electrolytic Manganese Anode Slime for the High-Value Industrialized Products─A Review

Zhang

Shu

Chen

et al. 2023

Ind. Eng. Chem. Res.

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The high-value recovery and utilization of electrolytic manganese anode slime (EMAS) have emerged as a pressing concern in the global electrolytic manganese industry. EMAS, a black-brown byproduct generated during the electrolytic process of manganese metal, contains over 40% Mn as well as heavy metals, such as Pb and Se. This Review delves into the status of research pertaining to the properties of EMAS as a resource, waste reduction strategies, and resource utilization both at home and abroad. The resource reduction technology of EMAS focuses primarily on modifying titanium-coated electrolytic manganese anode plates, adding additives, regulating electric currents, and developing advanced electrolytic equipment. The resource utilization technology, on the other hand, centers around the recovery and separation of Mn, Pb, and Se to generate MnO 2 , LiMn 2 O 4 , highpurity MnSO 4 , adsorbent, catalyst, and oxidant products. Furthermore, this Review points out the existing issues and future development prospects of EMAS. The research results of this Review will provide technical support for global EMAS comprehensive resource utilization and manganese pollution treatment in electrolytic manganese enterprises.Review pubs.acs.org/IECR

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“…Amplified fragment length polymorphism (AFLP) marker offers the advantages of great dependability, stable experimental results, no need to know the DNA sequence beforehand, and only a few primers can cover the entire genome (Vos et al, 1995). AFLP markers can be used to examine genetic structure, genetic differentiation, and geographical distribution pattern of genetic diversity of species (Wu et al, 2020;Adhikari et al, 2022;Xu et al, 2022). It is of utmost practical relevance for the protection and utilization of endangered species to clarify the internal and external factors that affect endangerment or even extinction and establish corresponding conservation strategies based on genetic variation and structure.…”

Section: Introductionmentioning

confidence: 99%

Regional environmental differences significantly affect the genetic structure and genetic differentiation of Carpinus tientaiensis Cheng, an endemic and extremely endangered species from China

Zhao,

He,

Chu

et al. 2024

Front. Plant Sci.

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Differences in topography and environment greatly affect the genetic structure and genetic differentiation of species, and endemic or endangered species with limited geographic ranges seem to be more sensitive to changes in climate and other environmental factors. The complex topography of eastern China is likely to affect genetic differentiation of plants there. Carpinus tientaiensis Cheng is a native and endangered plants from China, and exploring its genetic diversity has profound significance for protection and the collection of germplasm resources. Based on AFLP markers, this study found that C. tientaiensis has low genetic diversity, which mainly came from within populations, while Shangshantou and Tiantai Mountain populations have relatively high genetic diversity. The Nei genetic distance was closely related to geographical distance, and temperature and precipitation notablely affected the genetic variation and genetic differentiation of C. tientaiensis. Based on cpDNA, this study indicated that C. tientaiensis exhibits a moderate level of genetic diversity, and which mainly came from among populations, while Tiantai Mountain population have the highest genetic diversity. It demonstrated that there was genetic differentiation between populations, which can be divided into two independent geographical groups, but there was no significant phylogeographic structure between them. The MaxEnt model showed that climate change significantly affects its distribution, and the suitable distribution areas in Zhejiang were primarily divided into two regions, eastern Zhejiang and southern Zhejiang, and there was niche differentiation in its suitable distribution areas. Therefore, this study speculated that the climate and the terrain of mountains and hills in East China jointly shape the genetic structure of C. tientaiensis, which gived rise to an obvious north-south differentiation trend of these species, and the populations located in the hilly areas of eastern Zhejiang and the mountainous areas of southern Zhejiang formed two genetic branches respectively.

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Research Progress on endangered plants: a bibliometric analysis

Cited by 19 publications

References 46 publications

Research progress on Brassicaceae plants: a bibliometrics analysis

Research progress on Brassicaceae plants: a bibliometrics analysis

Recovery and Utilization of Electrolytic Manganese Anode Slime for the High-Value Industrialized Products─A Review

Regional environmental differences significantly affect the genetic structure and genetic differentiation of Carpinus tientaiensis Cheng, an endemic and extremely endangered species from China

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