Comparative Chloroplast Genomes of Zosteraceae Species Provide Adaptive Evolution Insights Into Seagrass by Jun Chen, Yu Zang, Shuai Shang, Shuai Shang, Shuo Liang, Meiling Zhu, Ying Wang, Ying Wang, Xuexi Tang, Xuexi Tang

Subjects: “…Zosteraceae…”
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Erratum: Comparative Chloroplast Genomes of Zosteraceae Species Provide Adaptive Evolution Insights Into Seagrass by Frontiers Production Office

Subjects: “…Zosteraceae…”
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Effect of trampling and digging from shellfishing on Zostera noltei (Zosteraceae) intertidal seagrass beds by Joxe Mikel Garmendia, Mireia Valle, Ángel Borja, Guillem Chust, Dae-Jin Lee, J. Germán Rodríguez, Javier Franco

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Seagrass Zostera In the Russian Section Of the Baltic Sea by Anton A. Iurmanov, Mikhail S. Romanov, Gerb A. Marika, Alexandra A. Volodina, Irina B. Baikova, Igor Yu. Popov, Mikhail Yu. Markovets

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Seagrasses At The Islands Iturup And Urup Of Kuril Archipelago by Anton A. Iurmanov, Igor Yu. Popov, Mikhail S. Romanov

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Seasonal and Interannual Variability in the Phenolic Content of the Seagrass <i>Nanozostera noltei:</i> Characterization of Suitable Candidates for the Monitoring of Seagrass Healt... by Micheline Grignon-Dubois, Bernadette Rezzonico

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Copper sulphate treatment induces Heterozostera seed germination and improves seedling growth rates by Brooke K. Sullivan, Michael Keough, Laura L. Govers

“…Additionally, seeds of H. nigricaulis, have proven extremely difficult to store and germinate in laboratories, even when using techniques for germination proven successful in other Zosteraceae. Prior studies reveal Zosteraceae seed and seedling failure may be correlated with oomycete infections. …”
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A Fuzzy Inference System for Seagrass Distribution Modeling in the Mediterranean Sea: A First Approach by Dimitra Papaki, Nikolaos Kokkos, Georgios Sylaios

“…Climate change scenarios show that Posidoniaceae and Zosteraceae tolerate bathymetric changes, and Posidoniaceae and Zosteraceae are mostly affected by sea temperature rise, while Hydrocharitaceae exhibits tolerance at higher sea temperatures. …”
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Phylogenetic phytogeography of selected groups of seagrasses (Monocotylendoneae - Alismatales) based on analysing of genes 5.8S rRNA and RuBisCo large subunit by Anton A. Iurmanov

“…Seagrasses are representatives of the families Cymodoceaceae, Posidoniaceae, Zosteraceae, Hydrocharitaceae (Monocotylendoneae - Alismatales), adapted to growing in seawaters and all their important life circle events are taking place under the water including pollination and distribution of diasporas. …”
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Seagrass and hydrographic data for the Mediterranean Sea by Dimitrios Effrosynidis, Avi Arampatzis, Georgios Sylaios

“…The dataset includes 1,771 locations of major seagrass families (Cymodoceaceae, Zosteraceae, Posidoniaceae, Hydrocharitaceae, Ruppiaceae), which are further divided into the species they include, as well as 1,284 locations of seagrass absence (algorithmically produced), in the Mediterranean Sea. …”
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The Cell Wall of Seagrasses: Fascinating, Peculiar and a Blank Canvas for Future Research by Lukas Pfeifer, Birgit Classen

“…Today, seagrasses comprise the five families Zosteraceae, Hydrocharitaceae, Posidoniaceae, Cymodoceaceae, and Ruppiaceae and form important coastal ecosystems worldwide. …”
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The first complete chloroplast genomes of two Alismataceae species, and the phylogenetic relationship under order Alismatales by Jiye Liang, Qing Ma, Zhaoping Yang

“…The core Alismatids, consisting of Potamogetonaceae, Zosteraceae, Hydrocharitaceae and Alismataceae, is sister to Tofieldiaceae. …”
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Chloroplast genomic comparison provides insights into the evolution of seagrasses by Jun Chen, Yu Zang, Shuai Shang, Zhibo Yang, Shuo Liang, Song Xue, Ying Wang, Xuexi Tang

“…Results The cp genomes of the seagrasses ranged in size from 143,877 bp (Zostera marina) to 178,261 bp (Thalassia hemprichii), and also varied in size among different families in the following order: Hydrocharitaceae > Cymodoceaceae > Ruppiaceae > Zosteraceae. The length differences between families were mainly related to the expansion and contraction of the IR region. …”
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Status, biodiversity, and ecosystem services of seagrass habitats within the Coral Triangle in the western Pacific ocean by Al-Asif, Abdulla-, Kamal, Abu Hena Mustafa, Hamli, Hadi, Idris, Mohd Hanafi, Gerusu, Geoffery James, Ismail, Johan, Bhuiyan, Md Khurshid Alam, Abualreesh, Muyassar H., Musa, Najiah, Wahid, Mohd Effendy Abd, Mishra, Manoranjan

“…Depending on their different locations, the six CT countries have a minimum of 10 to a maximum of 19 seagrass species that belong to four distinct families (Hydrocharitaceae, Cymodoceaceae, Zosteraceae, and Ruppiaceae) and cover almost 58,550.63‬ km2. …”