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Journal articles on the topic 'Spartina maritima'

Author: Grafiati
Published: 4 June 2021
Last updated: 9 February 2022

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1

Redondo-Gómez, Susana. "Bioaccumulation of heavy metals in Spartina." Functional Plant Biology 40, no. 9 (2013): 913. http://dx.doi.org/10.1071/fp12271.

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The Spartina Schreb. genus is composed of C4 perennial grasses in the family Poaceae. They are native to the coasts of the Atlantic Ocean in western and southern Europe, north-west and southern Africa, the Americas and the southern Atlantic Ocean islands. Most species are salt tolerant and colonise coastal or inland saltmarshes. The available literature on heavy metal bioaccumulation by Spartina sp. was compiled and compared. Spartina alterniflora Loisel. and Spartina maritima (Curtis) Fernald were the most commonly researched species of the genus, whereas many species were not represented at all. In contrast, Cu and Zn are the most intensively researched heavy metals. The few studies dealing with the physiological impacts of heavy metals or the mechanisms of metal accumulation, which involve extracellular and intracellular metal chelation, precipitation, compartmentalisation and translocation in the vascular system, were documented. Bioaccumulation of metals in roots and tillers of some species of the Spartina genus (e.g. S. maritima and Spartina densiflora Brongn.) has been described as a feasible method for remediating waters and soils contaminated with heavy metals. One such example is Spartina argentinensis Parodi, which has been found to be a Cr-hyperaccumulator; it can concentrate chromium in its tissues to levels far exceeding those present in the soil.
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2

Gallego-Tévar, Blanca, Brenda J. Grewell, Hélène Rousseau, Jean Keller, Abdelkader Ainouche, Oscar Lima, Stéphane Dréano, et al. "Genetic structure of Spartina hybrids between native Spartina maritima and invasive Spartina densiflora in Southwest Europe." Perspectives in Plant Ecology, Evolution and Systematics 37 (April 2019): 26–38. http://dx.doi.org/10.1016/j.ppees.2019.02.001.

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3

Faustino, Maria V., Maria A. F. Faustino, Helena Silva, Ângela Cunha, Artur M. S. Silva, and Diana C. G. A. Pinto. "Puccinellia maritima, Spartina maritime, and Spartina patens Halophytic Grasses: Characterization of Polyphenolic and Chlorophyll Profiles and Evaluation of Their Biological Activities." Molecules 24, no. 20 (October 22, 2019): 3796. http://dx.doi.org/10.3390/molecules24203796.

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Halophytic grasses have been recently targeted as possible sources of nutraceutical and medicinal compounds. Nonetheless, few studies have been conducted on the phytochemistry and biological activities of metabolites produced by these plants. Among these, Spartina maritima (Curtis) Fernald, Spartina patens (Aiton.) Muhl., and Puccinellia maritima (Hudson) Parl. are three halophytic grasses whose chemical composition and bioactivities are unknown. The present work broadens the knowledge on the polyphenolic and chlorophyll composition of these species identifying for the first time hydroxycinnamic acids and their derivatives, flavones, flavonols, lignans, as well as chlorophylls and xantophylls. The extracts were particularly rich in caffeic and ferulic acids as well as in trihydroxymethoxyflavone, apigenin and tricin derivatives. Interestingly, several of the identified compounds are relevant from a medicinal and nutraceutical point of view putting in evidence the potential of these species. Thus, the antioxidant, anti-acetylcholinesterase, antibacterial, and antifungal activities of the polyphenolic extracts were assessed as well as the photophysical properties of the chlorophyll-rich extracts. The results, herein presented for the first time, reinforce the nutritional and the medicinal potential of these halophytic grasses.
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4

Castillo, Jesús M., and Enrique Figueroa. "Restoring Salt Marshes Using Small Cordgrass,Spartina maritima." Restoration Ecology 17, no. 3 (May 2009): 324–26. http://dx.doi.org/10.1111/j.1526-100x.2008.00465.x.

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5

Santín, Cristina, Martha González-Pérez, Xosé Luis Otero, Miguel Ángel Álvarez, and Felipe Macías. "Humic substances in estuarine soils colonized by Spartina maritima." Estuarine, Coastal and Shelf Science 81, no. 4 (March 2009): 481–90. http://dx.doi.org/10.1016/j.ecss.2008.12.013.

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6

CHELAIFA, H., F. MAHÉ, and M. AINOUCHE. "Transcriptome divergence between the hexaploid salt-marsh sister species Spartina maritima and Spartina alterniflora (Poaceae)." Molecular Ecology 19, no. 10 (April 16, 2010): 2050–63. http://dx.doi.org/10.1111/j.1365-294x.2010.04637.x.

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7

Castillo, Jesús M., Enrique Mateos-Naranjo, Francisco J. Nieva, and Enrique Figueroa. "Plant zonation at salt marshes of the endangered cordgrass Spartina maritima invaded by Spartina densiflora." Hydrobiologia 614, no. 1 (July 26, 2008): 363–71. http://dx.doi.org/10.1007/s10750-008-9520-z.

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8

Duarte, B., T. Couto, J. Freitas, J. Valentim, H. Silva, J. C. Marques, J. M. Dias, and I. Caçador. "Abiotic modulation of Spartina maritima photobiology in different latitudinal populations." Estuarine, Coastal and Shelf Science 130 (September 2013): 127–37. http://dx.doi.org/10.1016/j.ecss.2013.02.008.

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9

Cleary, D. F. R., A. R. M. Polónia, A. I. Sousa, A. I. Lillebø, H. Queiroga, and N. C. M. Gomes. "Temporal dynamics of sediment bacterial communities in monospecific stands of Juncus maritimus and Spartina maritima." Plant Biology 18, no. 5 (May 5, 2016): 824–34. http://dx.doi.org/10.1111/plb.12459.

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10

Baumel, A., M. L. Ainouche, M. T. Misset, J.-P. Gourret, and R. J. Bayer. "Genetic evidence for hybridization between the native Spartina maritima and the introduced Spartina alterniflora (Poaceae) in South-West France: Spartina × neyrautii re-examined." Plant Systematics and Evolution 237, no. 1-2 (March 1, 2003): 87–97. http://dx.doi.org/10.1007/s00606-002-0251-8.

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11

Adams, J. B., and G. C. Bate. "Ecological implications of tolerance of salinity and inundation by Spartina maritima." Aquatic Botany 52, no. 3 (December 1995): 183–91. http://dx.doi.org/10.1016/0304-3770(95)00496-3.

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12

Couto, Thiago, Bernardo Duarte, Dimitri Barroso, Isabel Caçador, and João C. Marques. "Halophytes as sources of metals in estuarine systems with low levels of contamination." Functional Plant Biology 40, no. 9 (2013): 931. http://dx.doi.org/10.1071/fp12300.

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Heavy metal concentrations present in the above- and beowground tissues of Scirpus maritimus L., Spartina maritima (Curtis) Fernald and Zostera noltii Hornem were analysed seasonally in the Mondego Estuary, Portugal. The sediments of the estuary were confirmed to contain only low concentrations of heavy metals. The belowground tissues of all three species showed higher heavy metal concentrations than the aboveground tissues. Although the sediments only contained low levels of contamination, because the area occupied by S. maritimus and Z. noltii was large, significant quantities of heavy metals were accumulated and exported to the surrounding water bodies. In contrast with observations of highly contaminated estuaries, it was found that in spite of the low level of contaminants in the sediments of the Mondego Estuary, aquatic vegetation functioned as a source of metals for nearby systems.
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13

Guenegou, M. C., J. Citharel, and J. E. Levasseur. "The hybrid status of Spartina anglica (Poaceae). Enzymatic analysis of the species and of the presumed parents." Canadian Journal of Botany 66, no. 9 (September 1, 1988): 1830–33. http://dx.doi.org/10.1139/b88-249.

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Three enzymatic systems were analysed in Spartina alterniflora Loisel., S. maritima (Curt.) Fernald, and S. anglica C. E. Hubbard, using samples gathered in the west of France. Examination of the acid phosphatases, esterases, and superoxide dismutases demonstrates certain analogies found in the three species. The hypothesis of a hybrid origin for S. anglica remains probable and is indeed enhanced by the isoforms of the esterases.
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14

Neumeier, Urs, and Paolo Ciavola. "Flow Resistance and Associated Sedimentary Processes in a Spartina maritima Salt-Marsh." Journal of Coastal Research 202 (April 2004): 435–47. http://dx.doi.org/10.2112/1551-5036(2004)020[0435:fraasp]2.0.co;2.

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15

Curado, G., E. Figueroa, and J. M. Castillo. "Vertical sediment dynamics in Spartina maritima restored, non-restored and preserved marshes." Ecological Engineering 47 (October 2012): 30–35. http://dx.doi.org/10.1016/j.ecoleng.2012.06.041.

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16

Sousa, Ana I., Ana I. Lillebø, Isabel Caçador, and Miguel A. Pardal. "Contribution of Spartina maritima to the reduction of eutrophication in estuarine systems." Environmental Pollution 156, no. 3 (December 2008): 628–35. http://dx.doi.org/10.1016/j.envpol.2008.06.022.

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17

Curado, Guillermo, Juan E. Sánchez-Moyano, Enrique Figueroa, and Jesús M. Castillo. "Do Spartina maritima Plantations Enhance the Macroinvertebrate Community in European Salt Marshes?" Estuaries and Coasts 37, no. 3 (October 10, 2013): 589–601. http://dx.doi.org/10.1007/s12237-013-9713-1.

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18

Duarte, Bernardo, Dinis Santos, and Isabel Caçador. "Halophyte anti-oxidant feedback seasonality in two salt marshes with different degrees of metal contamination: search for an efficient biomarker." Functional Plant Biology 40, no. 9 (2013): 922. http://dx.doi.org/10.1071/fp12315.

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Salt marshes can be affected by metal contamination when near a polluted area, and this excessive concentration of metals is a source of stress in plants. Production of proteins, flavonoids, phenolic compounds and anti-oxidant feedback can be used as biomarkers, as well to assess the suitability of halophytes to function as a biomonitors. Through monitoring the anti-oxidative feedback in Halimione portulacoides (L.) Aellen, Sarcocornia fruticosa (L.) A.J.Scott and Spartina maritima (Curtis) Fernald in a contaminated and non-contaminated marsh, S. maritima seems to have potential as a bioindicator species, showing different biochemical characteristics according to the degree of contamination to which it is exposed. The evident biochemical separation between individuals from contaminated and non-contaminated salt marshes is mostly due to differences in the activity of SOD as well APx and GPx. Without neglecting the need for further works, the present study suggests that S. maritima enzymatic defences as good candidates for efficient biomarkers for estuarine sediment quality assessment studies.
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19

Infante-Izquierdo, Castillo, Grewell, Nieva, and Muñoz-Rodríguez. "Differential Effects of Increasing Salinity on Germination and Seedling Growth of Native and Exotic Invasive Cordgrasses." Plants 8, no. 10 (September 25, 2019): 372. http://dx.doi.org/10.3390/plants8100372.

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Soil salinity is a key environmental factor influencing germination and seedling establishment in salt marshes. Global warming and sea level rise are changing estuarine salinity, and may modify the colonization ability of halophytes. We evaluated the effects of increasing salinity on germination and seedling growth of native Spartina maritima and invasive S. densiflora from wetlands of the Odiel-Tinto Estuary. Responses were assessed following salinity exposure from fresh water to hypersaline conditions and germination recovery of non-germinated seeds when transferred to fresh water. The germination of both species was inhibited and delayed at high salinities, while pre-exposure to salinity accelerated the speed of germination in recovery assays compared to non-pre-exposed seeds. S. densiflora was more tolerant of salinity at germination than S. maritima. S. densiflora was able to germinate at hypersalinity and its germination percentage decreased at higher salinities compared to S. maritima. In contrast, S. maritima showed higher salinity tolerance in relation to seedling growth. Contrasting results were observed with differences in the tidal elevation of populations. Our results suggest S. maritima is a specialist species with respect to salinity, while S. densiflora is a generalist capable of germination of growth under suboptimal conditions. Invasive S. densiflora has greater capacity than native S. maritima to establish from seed with continued climate change and sea level rise.
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20

Grignon-Dubois, Micheline, and Bernadette Rezzonico. "First insight into the phenolic content of Spartina maritima: isolation, characterization and quantification of four C-glycosidic flavonoids." Botanica Marina 62, no. 4 (August 27, 2019): 379–89. http://dx.doi.org/10.1515/bot-2018-0063.

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Abstract The phenolic content of Spartina maritima was investigated using chromatographic and spectroscopic techniques. Aqueous methanolic extracts were prepared from plant collected in different seasons in the Bay of Arcachon (French Atlantic coast). High performance liquid chromatography (HPLC) with diode array detection (DAD) coupled with mass spectrometry allowed identification of four major phenolics in the aerial tissue, all belonging to the C-glycosidic-flavonoid class. They were isolated from the crude extracts, and their structures were assigned to isovitexin, isoscoparin and their respective 2″-O-glucosides on the basis of NMR, mass and UV spectroscopies. The seasonal variation of the flavonoid content was quantified over the period January 2013 to May 2015. The total concentration found ranged from 1.73 to 4.60 mg g−1 dry wt for isovitexin derivatives, and 0.88–2.66 mg g−1 dry wt for isoscoparin derivatives. The phenolic content of the rhizomes was very low and mainly dominated by coumaric acid (0.03–0.08 mg g−1), along with ferulic acid (≤0.06 mg g−1). The lack of significant concentrations of flavonoids in the rhizome contrasts with the aerial tissue. This work constitutes the first phenolic profiling of S. maritima and should provide a foundation for further studies, considering the reported biological activities of C-glycosidic flavonoids, and the lack of knowledge of the phenolic chemistry of the genus Spartina.
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21

Castellanos, E. M., M. E. Figueroa, and A. J. Davy. "Nucleation and Facilitation in Saltmarsh Succession: Interactions between Spartina Maritima and Arthrocnemum Perenne." Journal of Ecology 82, no. 2 (June 1994): 239. http://dx.doi.org/10.2307/2261292.

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22

Padinha, C., R. Santos, and M. T. Brown. "Evaluating environmental contamination in Ria Formosa (Portugal) using stress indexes of Spartina maritima." Marine Environmental Research 49, no. 1 (February 2000): 67–78. http://dx.doi.org/10.1016/s0141-1136(99)00049-5.

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23

Barata, M., M. C. Basilio, and J. L. Baptista-Ferreira. "Nia globospora, a new marine gasteromycete on baits of Spartina maritima in Portugal." Mycological Research 101, no. 6 (June 1997): 687–90. http://dx.doi.org/10.1017/s0953756296003231.

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24

Pozo, J., and R. Colino. "Decomposition processes of Spartina maritima in a salt marsh of the Basque Country." Hydrobiologia 231, no. 3 (April 1992): 165–75. http://dx.doi.org/10.1007/bf00018200.

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25

Proença, Barbara, Florian Ganthy, Richard Michalet, and Aldo Sottolichio. "Observations of Tidal Flat Sedimentation within a Native and an Exotic Spartina Species." Water 13, no. 11 (June 1, 2021): 1566. http://dx.doi.org/10.3390/w13111566.

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Field measurements of bed elevation and related wave events were performed within a tidal marsh, on two cordgrass species, Spartina anglica (exotic) and Spartina maritima (native), in the Bay of Arcachon (SW France). Bed- and water-level time series were used to infer on the sediment behavior patterns from short to long term. A consistent response was found between the bed-level variation and the wave forcing, with erosion occurring during storms and accretion during low energy periods. Such behavior was observed within the two species, but the magnitude of bed-level variation was higher within the native than the exotic Spartina. These differences, in the order of millimeters, were explained by the opposite allocation of biomass of the two species. On the long term, the sedimentation/erosion patterns were dominated by episodic storm events. A general sediment deficit was observed on the site, suggested by an overall bed-level decrease registered within both species. However, further verification of within species variation needs to be considered when drawing conclusions. Despite possible qualitative limitations of the experimental design, due to single point survey, this work provides original and considerable field data to the understanding the different species ability to influence bed sediment stabilization and their potential to build marsh from the mudflat pioneer stage. Such information is valuable for coastal management in the context of global change.
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Reboreda, Rosa, and Isabel Caçador. "Enzymatic activity in the rhizosphere of Spartina maritima: Potential contribution for phytoremediation of metals." Marine Environmental Research 65, no. 1 (February 2008): 77–84. http://dx.doi.org/10.1016/j.marenvres.2007.09.001.

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27

Duarte, B., D. Santos, J. C. Marques, and I. Caçador. "Biophysical probing of Spartina maritima photo-system II changes during prolonged tidal submersion periods." Plant Physiology and Biochemistry 77 (April 2014): 122–32. http://dx.doi.org/10.1016/j.plaphy.2014.01.023.

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28

Mateos-Naranjo, E., S. Redondo-Gómez, L. Andrades-Moreno, and A. J. Davy. "Growth and photosynthetic responses of the cordgrass Spartina maritima to CO2 enrichment and salinity." Chemosphere 81, no. 6 (October 2010): 725–31. http://dx.doi.org/10.1016/j.chemosphere.2010.07.047.

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Reboreda, Rosa, Isabel Caçador, Sílvia Pedro, and Pedro Raposo Almeida. "Mobility of metals in salt marsh sediments colonised by Spartina maritima (Tagus estuary, Portugal)." Hydrobiologia 606, no. 1 (April 12, 2008): 129–37. http://dx.doi.org/10.1007/s10750-008-9340-1.

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Ferreira, Ana Rita, Paula Guedes, Eduardo P. Mateus, Alexandra B. Ribeiro, and Nazaré Couto. "Comparative assessment of LECA and Spartina maritima to remove emerging organic contaminants from wastewater." Environmental Science and Pollution Research 24, no. 8 (January 18, 2017): 7208–15. http://dx.doi.org/10.1007/s11356-017-8452-4.

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31

Bergamino, Leandro, and Nicole B. Richoux. "Food preferences of the estuarine crab Sesarma catenata estimated through laboratory experiments." Marine and Freshwater Research 66, no. 8 (2015): 750. http://dx.doi.org/10.1071/mf14122.

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Feeding by sesarmid crabs on plants represents an important energy pathway within some estuarine ecosystems. We examined the trophic ecology of estuarine sesarmid crabs Sesarma catenata through a series of laboratory feeding-preference experiments. Our experiments considered decomposed and mature leaves of terrestrial riparian trees, marsh plants Chenolea diffusa and Sarcocornia perennis and the marshgrass Spartina maritima as potential food items. S. catenata preferred decomposed leaves of terrestrial riparian trees, followed by decomposed and mature leaves of S. maritima. We suggest that the low carbon:nitrogen (C:N) ratios of S. maritima and high bacterial production associated with decomposed terrestrial leaves may explain the trophic behaviour of S. catenata. The faecal production by S. catenata during these experiments confirmed the preferential assimilation of decomposed material by the crabs. By combining the consumption rates with an estimated density of S. catenata within the local estuary that it inhabits, we suggest that moderate proportions of the leaf material can potentially be consumed by this species (34% of total leaf litter), leaving substantial amounts of unconsumed leaf litter that may represent an important subsidy for adjacent environments. Our results validate previously published trophic data, showing the value of linking feeding experiments with biological tracers to improve food-web models.
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Ferreira de Carvalho, J., J. Poulain, C. Da Silva, P. Wincker, S. Michon-Coudouel, A. Dheilly, D. Naquin, J. Boutte, A. Salmon, and M. Ainouche. "Transcriptome de novo assembly from next-generation sequencing and comparative analyses in the hexaploid salt marsh species Spartina maritima and Spartina alterniflora (Poaceae)." Heredity 110, no. 2 (November 14, 2012): 181–93. http://dx.doi.org/10.1038/hdy.2012.76.

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Castillo, Jesús M., and Enrique Figueroa. "Effects of abiotic factors on the life span of the invasive cordgrass Spartina densiflora and the native Spartina maritima at low salt marshes." Aquatic Ecology 43, no. 1 (December 25, 2007): 51–60. http://dx.doi.org/10.1007/s10452-007-9159-2.

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Rousseau-Gueutin, M., S. Bellot, G. E. Martin, J. Boutte, H. Chelaifa, O. Lima, S. Michon-Coudouel, et al. "The chloroplast genome of the hexaploid Spartina maritima (Poaceae, Chloridoideae): Comparative analyses and molecular dating." Molecular Phylogenetics and Evolution 93 (December 2015): 5–16. http://dx.doi.org/10.1016/j.ympev.2015.06.013.

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Lillebø, A. I., M. R. Flindt, M. A. Pardal, and J. C. Marques. "The Effect of Zostera noltii, Spartina maritima and Scirpus maritimus on Sediment Pore-water Profiles in a Temperate Intertidal Estuary." Hydrobiologia 555, no. 1 (February 2006): 175–83. http://dx.doi.org/10.1007/s10750-005-1114-4.

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Sousa, Ana I., Ana I. Lillebø, Miguel A. Pardal, and Isabel Caçador. "The influence of Spartina maritima on carbon retention capacity in salt marshes from warm-temperate estuaries." Marine Pollution Bulletin 61, no. 4-6 (2010): 215–23. http://dx.doi.org/10.1016/j.marpolbul.2010.02.018.

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Reboreda, Rosa, and Isabel Caçador. "Copper, zinc and lead speciation in salt marsh sediments colonised by Halimione portulacoides and Spartina maritima." Chemosphere 69, no. 10 (November 2007): 1655–61. http://dx.doi.org/10.1016/j.chemosphere.2007.05.034.

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Ferreira de Carvalho, J., H. Chelaifa, J. Boutte, J. Poulain, A. Couloux, P. Wincker, A. Bellec, et al. "Exploring the genome of the salt-marsh Spartina maritima (Poaceae, Chloridoideae) through BAC end sequence analysis." Plant Molecular Biology 83, no. 6 (July 23, 2013): 591–606. http://dx.doi.org/10.1007/s11103-013-0111-7.

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Infante-Izquierdo, M. Dolores, Jesús M. Castillo, F. Javier J. Nieva, Ioana D. Rotundu, Francesca T. David, Brenda J. Grewell, and Adolfo F. Muñoz-Rodríguez. "Fruit Set, Seed Viability and Germination of the European Native Spartina maritima in Southwest Iberian Peninsula." Wetlands 40, no. 2 (June 29, 2019): 421–32. http://dx.doi.org/10.1007/s13157-019-01188-1.

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Pedro Yuri Ribeiro and João Carlos Ferreira de Melo Júnior. "Richness and community structure of sand dunes (restinga) in Santa Catarina: subsidies for ecological restoration." Acta Biológica Catarinense 3, no. 1 (February 11, 2021): 25–35. http://dx.doi.org/10.21726/abc.v3i1.427.

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The coast of Balneario Piçarras city (Santa Catarina) is being constantly degraded by human action. This study aimed to characterize the richness and vegetation structure of two areas of herbaceous restinga (preserved and degraded) of the coastal plain of this city. The flora was mapped by using the patrolling method. Identification was done by comparative morphology and specialized bibliography. The phytosociology was based on the plot method with allocation oriented parallel to the coast line. There were 48 species, 44 genera and 22 families identified. Fabaceae, Asteraceae and Poaceae are the richest families. The H’ index was 3.9 in the preserved area and 2.1 in the degraded area. The community structure was represented by eight and 16 species in the degraded and preserved areas, respectively. In degraded areas, species as Spartina ciliata, Ipomoea pes-caprae, Sphagneticola trilobata and Paspalum vaginatum have the greater importance of coverage, structuring the community. In the preserved area, the organization structure of the community is given by Canavalia rosea, Remirea maritima, Stenotaphrum secundatum, Spartina ciliata and Acicarpha spathulata species. These species are considered pioneers and with a great potential of fixing dunes, which reflects their importance to the achievement of a future restoration work of the damaged area of the restinga in question.
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Calado, Maria da Luz, Luís Carvalho, Margarida Barata, and Ka-Lai Pang. "Potential roles of marine fungi in the decomposition process of standing stems and leaves of Spartina maritima." Mycologia 111, no. 3 (May 4, 2019): 371–83. http://dx.doi.org/10.1080/00275514.2019.1571380.

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Couto, Nazaré, Ana Rita Ferreira, Paula Guedes, Eduardo Mateus, and Alexandra B. Ribeiro. "Remediation potential of caffeine, oxybenzone, and triclosan by the salt marsh plants Spartina maritima and Halimione portulacoides." Environmental Science and Pollution Research 25, no. 36 (September 6, 2018): 35928–35. http://dx.doi.org/10.1007/s11356-018-3042-7.

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Reboredo, F. "How differences in the field influence Cu, Fe and Zn uptake by Halimione portulacoides and Spartina maritima." Science of The Total Environment 133, no. 1-2 (May 1993): 111–32. http://dx.doi.org/10.1016/0048-9697(93)90116-n.

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Lucena, Teresa, David R. Arahal, María A. Ruvira, Salvadora Navarro-Torre, Jennifer Mesa, Eloísa Pajuelo, Ignacio D. Rodriguez-Llorente, Lidia Rodrigo-Torres, María J. Piñar, and María J. Pujalte. "Vibrio palustris sp. nov. and Vibrio spartinae sp. nov., two novel members of the Gazogenes clade, isolated from salt-marsh plants (Arthrocnemum macrostachyum and Spartina maritima)." International Journal of Systematic and Evolutionary Microbiology 67, no. 9 (September 1, 2017): 3506–12. http://dx.doi.org/10.1099/ijsem.0.002155.

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Sánchez, J. M., D. G. SanLeon, and J. Izco. "Primary colonisation of mudflat estuaries by Spartina maritima (Curtis) Fernald in Northwest Spain: vegetation structure and sediment accretion." Aquatic Botany 69, no. 1 (January 2001): 15–25. http://dx.doi.org/10.1016/s0304-3770(00)00139-x.

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Grignon-Dubois, Micheline, Xavier De Montaudouin, and Bernadette Rezzonico. "Flavonoid pattern inheritance in the allopolyploid Spartina anglica – Comparison with the parental species S. maritima and S. alterniflora." Phytochemistry 174 (June 2020): 112312. http://dx.doi.org/10.1016/j.phytochem.2020.112312.

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Mesa, J., E. Mateos-Naranjo, M. A. Caviedes, S. Redondo-Gómez, E. Pajuelo, and I. D. Rodríguez-Llorente. "Scouting contaminated estuaries: Heavy metal resistant and plant growth promoting rhizobacteria in the native metal rhizoaccumulator Spartina maritima." Marine Pollution Bulletin 90, no. 1-2 (January 2015): 150–59. http://dx.doi.org/10.1016/j.marpolbul.2014.11.002.

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Duarte, Bernardo, Pedro R. Almeida, and Isabel Caçador. "Spartina maritima(cordgrass) rhizosediment extracellular enzymatic activity and its role in organic matter decomposition processes and metal speciation." Marine Ecology 30 (October 2009): 65–73. http://dx.doi.org/10.1111/j.1439-0485.2009.00326.x.

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Mesa, Jennifer, Ignacio David Rodríguez-Llorente, Eloisa Pajuelo, José María Barcia Piedras, Miguel Angel Caviedes, Susana Redondo-Gómez, and Enrique Mateos-Naranjo. "Moving closer towards restoration of contaminated estuaries: Bioaugmentation with autochthonous rhizobacteria improves metal rhizoaccumulation in native Spartina maritima." Journal of Hazardous Materials 300 (December 2015): 263–71. http://dx.doi.org/10.1016/j.jhazmat.2015.07.006.

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Lillebø, Ana Isabel, Mogens R. Flindt, Miguel Ângelo Pardal, and João Carlos Marques. "The effect of macrofauna, meiofauna and microfauna on the degradation of Spartina maritima detritus from a salt marsh area." Acta Oecologica 20, no. 4 (July 1999): 249–58. http://dx.doi.org/10.1016/s1146-609x(99)00141-1.

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