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Mostrando 41 - 60 Resultados de 130 Para Buscar '"Chenopodiaceae"', tiempo de consulta: 0.22s Limitar resultados
  1. 41
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    The unique structural and biochemical development of single cell C(4) photosynthesis along longitudinal leaf gradients in Bienertia sinuspersici and Suaeda aralocaspica (Chenopodiaceae)
  2. 42
    “…Our results indicate that the optimum DNA barcode was ITS for coastal salt-tolerant Poaceae and matK for the Chenopodiaceae. Sampling strategies for ten common species of Poaceae and Chenopodiaceae were analyzed according to optimum barcode. …”
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    Evaluating sampling strategy for DNA barcoding study of coastal and inland halo-tolerant Poaceae and Chenopodiaceae: A case study for increased sample size
  3. 43
    “…Another copy, which was not located in its cp genome, was a homolog of the host plant, Haloxylon ammodendron (Chenopodiaceae), suggesting that it was acquired from its host via a horizontal gene transfer.…”
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    Complete Chloroplast Genome Sequence of Holoparasite Cistanche deserticola (Orobanchaceae) Reveals Gene Loss and Horizontal Gene Transfer from Its Host Haloxylon ammodendron (Chenopodiaceae)
  4. 44
    por Liu, Mei-Zhen, Osborne, Colin P.
    Publicado 2013
    “…Chlorophyll fluorescence, water relations, and freezing injury were compared in four C(3) and six C(4) species of Poaceae and Chenopodiaceae from the same Mongolian flora. Contrary to expectations, freezing-induced leaf mortality and photodamage were lower in Poaceae than Chenopodiaceae species, and unrelated to photosynthetic pathway. …”
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    Differential freezing resistance and photoprotection in C(3) and C(4) eudicots and grasses
  5. 45
    “…Reconstruction of ancestral Chenopodiaceae karyotype indicates substantial genome rearrangements in spinach after its divergence from ancestral Chenopodiaceae, coinciding with high repeat content in the spinach genome. …”
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    Genomic analyses provide insights into spinach domestication and the genetic basis of agronomic traits
  6. 46
    “…However, the explanatory power of C(4) Chenopodiaceae models were poor, suggesting none of the factors considered in this study strongly influenced Chenopodiaceae distribution. …”
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    Plant families exhibit unique geographic trends in C(4) richness and cover in Australia
  7. 47
    “…In the present work we report for the first time the mycorrhizal status and the vertical fungal distribution of AMF spores present in the rhizospheric soil samples of four species of Chenopodiaceae (Allenrolfea patagonica, Atriplex argentina, Heterostachys ritteriana and Suaeda divaricata) at five different depths in two saline of central Argentina. …”
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    Arbuscular mycorrhizal fungi in saline soils: Vertical distribution at different soil depth
  8. 48
    “…The C(4) grass Setaria viridis, C(3) grass Leymus chinensis, and Chenopodiaceae species Suaeda corniculata were studied. …”
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    Arbuscular Mycorrhizal Fungi Alter Plant and Soil C:N:P Stoichiometries Under Warming and Nitrogen Input in a Semiarid Meadow of China
  9. 49
    “…Several carpological peculiarities in fruit and seed structure were discovered in obligate one-seeded Achatocarpaceae, Chenopodiaceae, Nyctaginaceae, Seguieriaceae and Sarcobataceae. …”
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    One-Seeded Fruits in the Core Caryophyllales: Their Origin and Structural Diversity
  10. 50
    “…The present paper deals with the study of biomass production of manures in the greens such as Amaranthus polygamus and Amaranthus viridis of the family Amaranthaceae and Spinacea oleracea of the family Chenopodiaceae. The medicinal uses and pharmaco – phytochemical analysis were also carried out for the plant species which are widely used as greens.…”
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    EFFECT OF MANURES ON BIOMASS PRODUCTION AND PHARMACOBIOCHEMICAL PROPERTIES OF SOME GREENS
  11. 51
    por Meinen, Catharina, Rauber, Rolf
    Publicado 2015
    “…Spectra grouped in Poaceae and Chenopodiaceae clusters. Within the Poaceae cluster, C(3) and C(4) species differed significantly in heterogeneity. …”
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    Root discrimination of closely related crop and weed species using FT MIR-ATR spectroscopy
  12. 52
    “…Overall, the total concentration of Quercus spp., Betula spp., Humulus spp., Artemisia spp., Ambrosia spp., and Chenopodiaceae pollen increased significantly over the 2 years. …”
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    Characteristics of airborne pollen in Incheon and Seoul (2015–2016)
  13. 53
    “…Adults oviposit on annual plants in the families Chenopodiaceae, Cucurbitaceae, Fabaceae, Poaceae, Polygonaceae and Solanaceae. …”
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    Pest categorisation of Diabrotica undecimpunctata undecimpunctata
  14. 54
    por Minaei, Kambiz, Aleosfoor, Maryam
    Publicado 2013
    “…The similarities and host plant associations of this new species and Haplothrips kermanensis are discussed,as both are phytophagous on species of Chenopodiaceae.…”
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    A new species of Haplothrips from southern Iran (Thysanoptera, Phlaeothripidae)
  15. 55
    “…Adults oviposit on annual plants in the families Asteraceae, Chenopodiaceae, Cucurbitaceae, Fabaceae, Poaceae, Polygonaceae and Solanaceae. …”
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    Pest categorisation of Diabrotica undecimpunctata howardi
  16. 56
    “…It appears that Asteraceae, Labiatae, Pinaceae, and Chenopodiaceae were particularly active against human cervical cancer cells. …”
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    Cytotoxicity of Selected Medicinal and Nonmedicinal Plant Extracts to Microbial and Cervical Cancer Cells
  17. 57
    “…The ranking of mean RPPs (Alt-2) relative to Poaceae (= 1) for eight major taxa is: Artemisia (21) > Pinus (18.4) > Betula (12.5) > Castanea (11.5) > Elaeagnaceae (8.8) > Juglans (7.5) > Compositae (4.5) > Amaranthaceae/Chenopodiaceae (4). We conclude that although RPPs are comparable between Europe and China for some genera and families, they can differ very significantly, e.g., Artemisia, Compositae, and Amaranthaceae/Chenopodiaceae. …”
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    A Review of Relative Pollen Productivity Estimates From Temperate China for Pollen-Based Quantitative Reconstruction of Past Plant Cover
  18. 58
    “…An analysis of the distribution of the three main C(4) plant families (Chenopodiaceae, Poaceae, and Cyperaceae) in the region in relation to climatic variables indicates that the increase of C(4) species follows more or less a latitudinal gradient similar to global patterns, while separate taxonomic groups seem to depend on specific factors as continentality (Chenopodiaceae), average annual temperature (Cyperaceae), and the presence of summer precipitation (Poaceae). …”
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    A Review of C(4) Plants in Southwest Asia: An Ecological, Geographical and Taxonomical Analysis of a Region With High Diversity of C(4) Eudicots
  19. 59
    por Li, Qin, Wang, Chao, Hu, Hong-Ying
    Publicado 2021
    “…(Diptera: Cecidomyiidae) on black saxaul, Haloxylon ammodendron (Chenopodiaceae); D. yuxuannis was collected by sweeping from both black saxaul and white saxaul, H. persicum, in Beishawo Desert near Fukang. …”
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    Two new species of Dzhanokmenia (Hymenoptera, Eulophidae) from China, with first report on a host association for the genus
  20. 60
    “…Atriplex hortensis (2n = 2x = 18, 1C genome size ∼1.1 gigabases), also known as garden orach and mountain-spinach, is a highly nutritious, broadleaf annual of the Amaranthaceae-Chenopodiaceae alliance (Chenopodiaceae sensu stricto, subfam. …”
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    A Chromosome-Scale Assembly of the Garden Orach (Atriplex hortensis L.) Genome Using Oxford Nanopore Sequencing
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