Australian New Crops Info 2016
Supported by the Rural Industries Research and Development Corporation

Listing of Interesting Plants of the World:

Carex limosa

 

 

This species is usually known as:

Carex limosa

 

This species has also been known as:

Carex limosa var. fuscocuprea, Carex limosa var. humilior, Carex limosa var. irrigua, Carex limosa f. laxiformis, Carex limosa var. livida, Carex limosa var. magellanica, Carex limosa var. oblonga, Carex limosa var. painei, Carex limosa f. pauciflora, Carex limosa var. pauciflora, Carex limosa subsp. planifolia, Carex limosa var. rariflora, Carex limosa f. robustior, Carex limosa f. stans, Carex limosa var. stygia

 

Common names:

Mud Sedge, Shore Sedge

 

 

Trends (five databases) 1901-2013:
[Number of papers mentioning Carex limosa: 198]

 

 

Popularity of Carex limosa over time
[Left-hand Plot: Plot of numbers of papers mentioning Carex limosa (histogram and left hand axis scale of left-hand plot) and line of best fit, 1901 to 2013 (equation and % variation accounted for in box); Right-hand Plot: Plot of a proportional micro index, derived from numbers of papers mentioning Carex limosa as a proportion (scaled by multiplying by one million) of the approximate total number of papers available in databases for that year (frequency polygon and left-hand axis scale of right-hand plot) and line of best fit, 1901 to 2013 (equation and % variation accounted for in box)] 

[For larger charts showing the numbers of papers that have mentioned this species over years, select this link; there are links to come back from there]

 

Keywords

[Total number of keywords included in the papers that mentioned this species: 1043]

 

Peatland (22), Sphagnum (18), fen (12), bog (11), Wetland (11), Climate change (10), photosynthesis (8), Mire (7), Water chemistry (7), Carex (6), carex limosa (6), Holocene (6), Carex rostrata (5), Eriophorum vaginatum (5), testate amoebae (5), Vascular plants (5), Water table (5), 0497 Wetlands (4), Bryophyte (4), Calcareous fen (4), Canonical correspondence analysis (4), carbon cycle (4), <ARROW Conservation (4), methane (4), Nitrogen (4), Ombrotrophic bog (4), peatlands (4), pollen analysis (4), subarctic (4), Tropospheric ozone (4), vegetation dynamics (4), bioindication (3), bogs (3), Bryophytes (3), carbon dioxide (3), carex distans (3), Carex lasiocarpa (3), carex pilosa (3), chemical constituents of plants (3), CO2 exchange (3), Decomposition (3), ecological gradient (3), eddy covariance (3), Eriophorum russeolum (3), growth (3), habitats (3), hydrology (3), Mire development (3), nitrogen deposition (3), Nutrient (3), Peat chemistry (3), peatland ecosystem (3), pH (3), Phytosociology (3), Production (3), Stratospheric ozone depletion (3), Ultraviolet-B (3), Urban ecology (3), Water level (3), wetlands (3), 0414 Biogeochemical cycles, processes, and modeling (2), 0428 Carbon cycling (2), 13C and 15N isotopes (2), Aboveground community (2), acidification (2), adaptation (2), AFLP (2), Alien species (2), Alpine wetland (2), Alps (2), Anthropogenic activities (2), anthropogDOWN>enic disturbance (2), Aphids (2), Aquatic plants (2), atmospheric deposition (2), biodiversity (2), biomass (2), Boreal peatland (2), carbohydrates (2), carbon (2), carbon budget (2), Carbon cycling (2), carex acutiformis (2), Carex aquatilis (2), chemotaxonomy (2), Chlorophyll fluorescence (2), chrysophytes (2), Cladopodiella fluitans (2), classification (2), climate changes (2), CO2 (2), Created pool (2), Data visualization (2), DCA (2), disturbance (2), Donor site (2), Eastern Canada (2), Ecohydrology (2)…..

 

[If all keywords are not here (as indicated by .....), they can be accessed from this link; there are links to come back from there]

 

 

Most likely scope for crop use/product (%):
[Please note: When there are only a few papers mentioning a species, care should be taken with the interpretation of these crop use/product results; as well, a mention may relate to the use of a species, or the context in which it grows, rather than a product]

 

bioindicator (55.17), ornamental (19.84), cane/bamboo (2.70), medicinal (2.60), charcoal (2.24), turf (1.90), model (1.57), timber (1.32), fruit (1.23), cereal (1.19)…..

 

[To see the full list of crop use/product outcomes, from searching abstracts of the papers that have mentioned this species, select this link; details of the analysis process have also been included; there are links to come back from there]

 

 

Recent mentions of this species in the literature:
[since 2012, with links to abstracts; The references from 1901-2013 which have been used for the trend, keyword and crop use/product analyses below, are listed below these references]

 

Bloch-Orłowska J and Meissner W (2016) Diversity of vegetation with Carex chordorrhiza L.f. and factors affecting the species abundance across its geographical range in Europe. Flora - Morphology, Distribution, Functional Ecology of Plants 224, 75-86. http://www.sciencedirect.com/science/article/pii/S0367253016300962

Dyderski MK, Czapiewska N, Zajdler M, Tyborski J and Jagodziński AM (2016) Functional diversity, succession, and human-mediated disturbances in raised bog vegetation. Science of The Total Environment 562, 648-57. http://www.sciencedirect.com/science/article/pii/S0048969716307811

Graham JA, Hartsock JA, Vitt DH, Wieder RK and Gibson JJ (2016) Linkages between spatio-temporal patterns of environmental factors and distribution of plant assemblages across a boreal peatland complex. Boreas 45, 207-19. http://dx.doi.org/10.1111/bor.12151

Karpińska-Kołaczek M, Stachowicz-Rybka R, Obidowicz A, Woszczyk M and Kołaczek P (2016) A lake-bog succession vs. climate changes from 13,300 to 5900 cal. BP in NE Poland in the light of palaeobotanical and geochemical proxies. Review of Palaeobotany and Palynology 233, 199-215. http://www.sciencedirect.com/science/article/pii/S0034666716300045

Larocque M, Ferlatte M, Pellerin S, Cloutier V, Munger JL, Paniconi C and Quillet A (2016) Chemical and botanical indicators of groundwater inflow to Sphagnum-dominated peatlands. Ecological Indicators 64, 142-51. http://www.sciencedirect.com/science/article/pii/S1470160X15007177

Lehmitz R and Maraun M (2016) Small-scale spatial heterogeneity of stable isotopes signatures (δ15N, δ13C) in Sphagnum sp. transfers to all trophic levels in oribatid mites. Soil Biology and Biochemistry 100, 242-51. http://www.sciencedirect.com/science/article/pii/S0038071716301067

Mathijssen PJH, Väliranta M, Korrensalo A, Alekseychik P, Vesala T, Rinne J and Tuittila E-S (2016) Reconstruction of Holocene carbon dynamics in a large boreal peatland complex, southern Finland. Quaternary Science Reviews 142, 1-15. http://www.sciencedirect.com/science/article/pii/S0277379116301251

Urbanová Z and Bárta J (2016) Effects of long-term drainage on microbial community composition vary between peatland types. Soil Biology and Biochemistry 92, 16-26. http://www.sciencedirect.com/science/article/pii/S0038071715003454

Wang Y, Jin H and Li G (2016) Investigation of the freeze–thaw states of foundation soils in permafrost areas along the China–Russia Crude Oil Pipeline (CRCOP) route using ground-penetrating radar (GPR). Cold Regions Science and Technology 126, 10-21. http://www.sciencedirect.com/science/article/pii/S0165232X16300283

Wood ME, Macrae ML, Strack M, Price JS, Osko TJ and Petrone RM (2016) Spatial variation in nutrient dynamics among five different peatland types in the Alberta oil sands region. Ecohydrology 9, 688-99. http://dx.doi.org/10.1002/eco.1667

Buse J, Boch S, Hilgers J and Griebeler EM (2015) Conservation of threatened habitat types under future climate change – Lessons from plant-distribution models and current extinction trends in southern Germany. Journal for Nature Conservation 27, 18-25. http://www.sciencedirect.com/science/article/pii/S1617138115300029

Buttler A, Robroek BJM, Laggoun-Défarge F, Jassey VEJ, Pochelon C, Bernard G, Delarue F, Gogo S, Mariotte P, Mitchell EAD and Bragazza L (2015) Experimental warming interacts with soil moisture to discriminate plant responses in an ombrotrophic peatland. Journal of Vegetation Science 26, 964-74. http://dx.doi.org/10.1111/jvs.12296

Hill MO and Preston CD (2015) Disappearance of boreal plants in southern Britain: habitat loss or climate change? Biological Journal of the Linnean Society 115, 598-610. http://dx.doi.org/10.1111/bij.12500

Kalnina L, Stivrins N, Kuske E, Ozola I, Pujate A, Zeimule S, Grudzinska I and Ratniece V (2015) Peat stratigraphy and changes in peat formation during the Holocene in Latvia. Quaternary International 383, 186-95. http://www.sciencedirect.com/science/article/pii/S1040618214007678

Koenig I, Feldmeyer-Christe E and Mitchell EAD (2015) Comparative ecology of vascular plant, bryophyte and testate amoeba communities in four Sphagnum peatlands along an altitudinal gradient in Switzerland. Ecological Indicators 54, 48-59. http://www.sciencedirect.com/science/article/pii/S1470160X15000679

Korzeń K, Margielewski W and Nalepka D (2015) Neoholocene palaeoenvironmental changes in the Southern Roztocze region (SE Poland): The Kobyle Jezioro raised bog case study. Quaternary International 386, 191-202. http://www.sciencedirect.com/science/article/pii/S1040618215005984

Laberge V, Hugron S, Rochefort L and Poulin M (2015) Influence of Different Bryophyte Carpets on Vascular Plant Establishment Around Pools in Restored Peatlands. Land Degradation & Development 26, 813-8. http://dx.doi.org/10.1002/ldr.2243

Lamentowicz M, Mueller M, Gałka M, Barabach J, Milecka K, Goslar T and Binkowski M (2015) Reconstructing human impact on peatland development during the past 200 years in CE Europe through biotic proxies and X-ray tomography. Quaternary International 357, 282-94. http://www.sciencedirect.com/science/article/pii/S104061821400514X

Lamentowicz M, Słowiński M, Marcisz K, Zielińska M, Kaliszan K, Lapshina E, Gilbert D, Buttler A, Fiałkiewicz-Kozieł B, Jassey VEJ, Laggoun-Defarge F and Kołaczek P (2015) Hydrological dynamics and fire history of the last 1300 years in western Siberia reconstructed from a high-resolution, ombrotrophic peat archive. Quaternary Research 84, 312-25. http://www.sciencedirect.com/science/article/pii/S0033589415000885

Margielewski W, Krąpiec M, Jankowski L, Urban J and Zernitskaya V (2015) Impact of aeolian processes on peat accumulation: Late Glacial–Holocene history of the Hamernia peat bog (Roztocze region, south-eastern Poland). Quaternary International 386, 212-25. http://www.sciencedirect.com/science/article/pii/S1040618215006928

Nijp JJ, Limpens J, Metselaar K, Peichl M, Nilsson MB, van der Zee SEATM and Berendse F (2015) Rain events decrease boreal peatland net CO2 uptake through reduced light availability. Global Change Biology 21, 2309-20. http://dx.doi.org/10.1111/gcb.12864

Shotyk W, Kempter H, Krachler M and Zaccone C (2015) Stable (206Pb, 207Pb, 208Pb) and radioactive (210Pb) lead isotopes in 1 year of growth of Sphagnum moss from four ombrotrophic bogs in southern Germany: Geochemical significance and environmental implications. Geochimica et Cosmochimica Acta 163, 101-25. http://www.sciencedirect.com/science/article/pii/S001670371500232X

Veretennikova EE (2015) Lead in the natural peat cores of ridge-hollow complex in the taiga zone of West Siberia. Ecological Engineering 80, 100-7. http://www.sciencedirect.com/science/article/pii/S0925857415000786

Vočadlová K, Petr L, Žáčková P, Křížek M, Křížová L, Hutchinson SM and Šobr M (2015) The Lateglacial and Holocene in Central Europe: a multi-proxy environmental record from the Bohemian Forest, Czech Republic. Boreas 44, 769-84. http://dx.doi.org/10.1111/bor.12126

Abdank A, Berg C, Litterski B, Müller D, Ringel H and Schiefelbein U (2014) Florenschutzkonzept Mecklenburg-Vorpommern – Methodik und Umsetzung. In ‘Handbuch Naturschutz und Landschaftspflege’. (Ed.^(Eds  pp. (Wiley-VCH Verlag GmbH & Co. KGaA). http://dx.doi.org/10.1002/9783527678471.hbnl2015002

Branham JE and Strack M (2014) Saturated hydraulic conductivity in Sphagnum-dominated peatlands: do microforms matter? Hydrological Processes 28, 4352-62. http://dx.doi.org/10.1002/hyp.10228

Centritto M, Haworth M, Marino G, Pallozzi E, Tsonev T, Velikova V, Nogues I and Loreto F (2014) Isoprene emission aids recovery of photosynthetic performance in transgenic Nicotiana tabacum following high intensity acute UV-B exposure. Plant Science 226, 82-91. http://www.sciencedirect.com/science/article/pii/S0168945214001381

Dudová L, Hájková P, Opravilová V and Hájek M (2014) Holocene history and environmental reconstruction of a Hercynian mire and surrounding mountain landscape based on multiple proxies. Quaternary Research 82, 107-20. http://www.sciencedirect.com/science/article/pii/S0033589414000568

Dzieduszyńska DA, Kittel P, Petera-Zganiacz J, Brooks SJ, Korzeń K, Krąpiec M, Pawłowski D, Płaza DK, Płóciennik M, Stachowicz-Rybka R and Twardy J (2014) Environmental influence on forest development and decline in the Warta River valley (Central Poland) during the Late Weichselian. Quaternary International 324, 99-114. http://www.sciencedirect.com/science/article/pii/S104061821300400X

Fukumoto Y, Kashima K and Ganzorig U (2014) The Holocene environmental changes in boreal fen peatland of northern Mongolia reconstructed from diatom assemblages. Quaternary International 348, 66-81. http://www.sciencedirect.com/science/article/pii/S1040618214003322

Martinetto E, Bouvet D, Vassio E, Magni P and Jiménez-Mejías P (2014) A new protocol for the collection and cataloguing of reference material for the study of fossil Cyperaceae fruits: The Modern Carpological Collection. Review of Palaeobotany and Palynology 201, 56-74. http://www.sciencedirect.com/science/article/pii/S0034666713001723

Olid C, Nilsson MB, Eriksson T and Klaminder J (2014) The effects of temperature and nitrogen and sulfur additions on carbon accumulation in a nutrient-poor boreal mire: Decadal effects assessed using 210Pb peat chronologies. Journal of Geophysical Research: Biogeosciences 119, 2013JG002365. http://dx.doi.org/10.1002/2013JG002365

Pedrotti E, Rydin H, Ingmar T, Hytteborn H, Turunen P and Granath G (2014) Fine-scale dynamics and community stability in boreal peatlands: revisiting a fen and a bog in Sweden after 50 years. Ecosphere 5, 1-24. http://dx.doi.org/10.1890/ES14-00202.1

Runkle BRK, Wille C, Gažovič M, Wilmking M and Kutzbach L (2014) The surface energy balance and its drivers in a boreal peatland fen of northwestern Russia. Journal of Hydrology 511, 359-73. http://www.sciencedirect.com/science/article/pii/S002216941400078X

Rybina TA, Bazanov VA and Berezin AE (2014) Spatial Organization and Structure of the Ridge-hollow Swamp Complex in Taiga Zone of Western Siberia. Procedia Earth and Planetary Science 10, 410-3. http://www.sciencedirect.com/science/article/pii/S1878522014001350

Schenková V, Horsák M, Hájek M, Plesková Z, Dítě D and Pawlikowski P (2014) Mollusc and plant assemblages controlled by different ecological gradients at Eastern European fens. Acta Oecologica 56, 66-73. http://www.sciencedirect.com/science/article/pii/S1146609X14000319

Urbanová Z and Bárta J (2014) Microbial community composition and in silico predicted metabolic potential reflect biogeochemical gradients between distinct peatland types. FEMS Microbiology Ecology 90, 633-46. http://dx.doi.org/10.1111/1574-6941.12422

Anonymous (2013) Index. In ‘Encyclopedia of Quaternary Science (Second Edition)’. (Ed.^(Eds Editor-in-Chief: Scott AE) pp. 757-849. (Elsevier: Amsterdam). http://www.sciencedirect.com/science/article/pii/B9780444536433100007

Hájek M, Hájková P, Kočí M, Jiroušek M, Mikulášková E and Kintrová K (2013) Do we need soil moisture measurements in the vegetation–environment studies in wetlands? Journal of Vegetation Science 24, 127-37. http://dx.doi.org/10.1111/j.1654-1103.2012.01440.x

Hornibrook ERC (2013) The Stable Carbon Isotope Composition of Methane Produced and Emitted from Northern Peatlands. In ‘Carbon Cycling in Northern Peatlands’. (Ed.^(Eds  pp. 187-203. (American Geophysical Union). http://dx.doi.org/10.1029/2008GM000828

Jassey VEJ, Chiapusio G, Binet P, Buttler A, Laggoun-Défarge F, Delarue F, Bernard N, Mitchell EAD, Toussaint M-L, Francez A-J and Gilbert D (2013) Above- and belowground linkages in Sphagnum peatland: climate warming affects plant-microbial interactions. Global Change Biology 19, 811-23. http://dx.doi.org/10.1111/gcb.12075

Jiroušek M, Poulíčková A, Kintrová K, Opravilová V, Hájková P, Rybníček K, Kočí M, Bergová K, Hnilica R, Mikulášková E, Králová Š and Hájek M (2013) Long-term and contemporary environmental conditions as determinants of the species composition of bog organisms. Freshwater Biology 58, 2196-207. http://dx.doi.org/10.1111/fwb.12201

Laberge V, Hugron S, Rochefort L and Poulin M (2013) INFLUENCE OF DIFFERENT BRYOPHYTE CARPETS ON VASCULAR PLANT ESTABLISHMENT AROUND POOLS IN RESTORED PEATLANDS. Land Degradation & Development, n/a-n/a. http://dx.doi.org/10.1002/ldr.2243

Lee CH, Shin HT, Kwon YH, Yi MH, Yoon JW, Kim GS, Park GH and Sung JW (2013) The Vascular Plant Species in the Korean Demilitarized zone (DMZ). Journal of Asia-Pacific Biodiversity 6, 31-81. http://www.sciencedirect.com/science/article/pii/S2287884X14600029

Lou Y, Wang G, Lu X, Jiang M and Zhao K (2013) Zonation of plant cover and environmental factors in wetlands of the Sanjiang Plain, northeast China. Nordic Journal of Botany 31, 748-56. http://dx.doi.org/10.1111/j.1756-1051.2013.01721.x

Mauquoy D and van Geel B (2013) PLANT MACROFOSSIL METHODS AND STUDIES | Mire and Peat Macros. In ‘Encyclopedia of Quaternary Science (Second Edition)’. (Ed.^(Eds Editor-in-Chief: Scott AE) pp. 637-56. (Elsevier: Amsterdam). http://www.sciencedirect.com/science/article/pii/B9780444536433002065

Mauquoy D and van Geel B (2013) PLANT MACROFOSSIL METHODS AND STUDIES | Mire and Peat Macros A2 - Elias, Scott A. In ‘Encyclopedia of Quaternary Science (Second Edition)’. (Ed.^(Eds Mock CJ) pp. 637-56. (Elsevier: Amsterdam). http://www.sciencedirect.com/science/article/pii/B9780444536433002065

Peichl M, Sagerfors J, Lindroth A, Buffam I, Grelle A, Klemedtsson L, Laudon H and Nilsson MB (2013) Energy exchange and water budget partitioning in a boreal minerogenic mire. Journal of Geophysical Research: Biogeosciences 118, 1-13. http://dx.doi.org/10.1029/2012JG002073

Schwarzer C, Heinken T, Luthardt V and Joshi J (2013) Latitudinal shifts in species interactions interfere with resistance of southern but not of northern bog plant-communities to experimental climate change. Journal of Ecology, n/a-n/a. http://dx.doi.org/10.1111/1365-2745.12158

Schwarzer C, Heinken T, Luthardt V and Joshi J (2013) Latitudinal shifts in species interactions interfere with resistance of southern but not of northern bog-plant communities to experimental climate change. Journal of Ecology 101, 1484-97. http://dx.doi.org/10.1111/1365-2745.12158

Sun L, Song C, Miao Y, Qiao T and Gong C (2013) Temporal and spatial variability of methane emissions in a northern temperate marsh. Atmospheric Environment 81, 356-63. http://www.sciencedirect.com/science/article/pii/S1352231013007218

Wojtuń B, Samecka-Cymerman A, Kolon K and Kempers AJ (2013) Decreasing concentrations of metals in Sphagnum mosses in ombrotrophic mires of the Sudety mountains (SW Poland) since late 1980s. Chemosphere 91, 1456-61. http://www.sciencedirect.com/science/article/pii/S0045653512015081

Wu G-L, Ren G-H, Wang D, Shi Z-H and Warrington D (2013) Above- and below-ground response to soil water change in an alpine wetland ecosystem on the Qinghai-Tibetan Plateau, China. Journal of Hydrology 476, 120-7. http://www.sciencedirect.com/science/article/pii/S0022169412009316

Wu J, Roulet NT, Sagerfors J and Nilsson MB (2013) Simulation of six years of carbon fluxes for a sedge-dominated oligotrophic minerogenic peatland in Northern Sweden using the McGill Wetland Model (MWM). Journal of Geophysical Research: Biogeosciences 118, 795-807. http://dx.doi.org/10.1002/jgrg.20045

Yu Z, Loisel J, Turetsky MR, Cai S, Zhao Y, Frolking S, MacDonald GM and Bubier JL (2013) Evidence for elevated emissions from high-latitude wetlands contributing to high atmospheric CH4 concentration in the early Holocene. Global Biogeochemical Cycles 27, 131-40. http://dx.doi.org/10.1002/gbc.20025

Aber JS, Pavri F and Aber SW (2012) High-Latitude and High-Altitude Wetlandc Case Studies. In ‘Wetland environments: A Global Perspective’. (Ed.^(Eds  pp. 336-57. (John Wiley & Sons, Ltd). http://dx.doi.org/10.1002/9781118349540.ch17

Aber JS, Pavri F and Aber SW (2012) Index. In ‘Wetland environments: A Global Perspective’. (Ed.^(Eds  pp. 401-21. (John Wiley & Sons, Ltd). http://dx.doi.org/10.1002/9781118349540.index

Banaś K, Gos K and Szmeja J (2012) Factors controlling vegetation structure in peatland lakes—Two conceptual models of plant zonation. Aquatic Botany 96, 42-7. http://www.sciencedirect.com/science/article/pii/S030437701100146X

Boulangeat I, Lavergne S, Van Es J, Garraud L and Thuiller W (2012) Niche breadth, rarity and ecological characteristics within a regional flora spanning large environmental gradients. Journal of Biogeography 39, 204-14. http://dx.doi.org/10.1111/j.1365-2699.2011.02581.x

Elliott SM, Roe HM and Patterson RT (2012) Testate amoebae as indicators of hydroseral change: An 8500 year record from Mer Bleue Bog, eastern Ontario, Canada. Quaternary International 268, 128-44. http://www.sciencedirect.com/science/article/pii/S1040618211004800

Hájek M, Hájková P, Kočí M, Jiroušek M, Mikulášková E and Kintrová K (2012) Do we need soil moisture measurements in the vegetation–environment studies in wetlands? Journal of Vegetation Science, n/a-n/a. http://dx.doi.org/10.1111/j.1654-1103.2012.01440.x

Hájková P, Grootjans A, Lamentowicz M, Rybníčková E, Madaras M, Opravilová V, Michaelis D, Hájek M, Joosten H and Wołejko L (2012) How a Sphagnum fuscum-dominated bog changed into a calcareous fen: the unique Holocene history of a Slovak spring-fed mire. Journal of Quaternary Science 27, 233-43. http://dx.doi.org/10.1002/jqs.1534

Jassey VEJ, Shimano S, Dupuy C, Toussaint M-L and Gilbert D (2012) Characterizing the Feeding Habits of the Testate Amoebae Hyalosphenia papilio and Nebela tincta along a Narrow “Fen-Bog” Gradient Using Digestive Vacuole Content and 13C and 15N Isotopic Analyses. Protist 163, 451-64. http://www.sciencedirect.com/science/article/pii/S1434461011000617

Liebner S, Schwarzenbach SP and Zeyer J (2012) Methane emissions from an alpine fen in central Switzerland. Biogeochemistry. 109, 287-99. http://dx.doi.org/10.1007/s10533-011-9629-4

Middleton M, Närhi P, Arkimaa H, Hyvönen E, Kuosmanen V, Treitz P and Sutinen R (2012) Ordination and hyperspectral remote sensing approach to classify peatland biotopes along soil moisture and fertility gradients. Remote Sensing of Environment 124, 596-609. http://www.sciencedirect.com/science/article/pii/S0034425712002465

Moen A, Lyngstad A and Øien D-I (2012) Boreal rich fen vegetation formerly used for haymaking. Nordic Journal of Botany 30, 226-40. http://dx.doi.org/10.1111/j.1756-1051.2011.01253.x

Närhi P, Räisänen ML, Sutinen M-L and Sutinen R (2012) Effect of tailings on wetland vegetation in Rautuvaara, a former iron–copper mining area in northern Finland. Journal of Geochemical Exploration 116–117, 60-5. http://www.sciencedirect.com/science/article/pii/S0375674212000489

van der Maaten L, Schmidtlein S and Mahecha MD (2012) Analyzing floristic inventories with multiple maps. Ecological Informatics 9, 1-10. http://www.sciencedirect.com/science/article/pii/S1574954112000076

van Kleef HH, van Duinen G-JA, Verberk WCEP, Leuven RSEW, van der Velde G and Esselink H (2012) Moorland pools as refugia for endangered species characteristic of raised bog gradients. Journal for Nature Conservation 20, 255-63. http://www.sciencedirect.com/science/article/pii/S1617138112000519

 

 

References 1901-2013 (and links to abstracts):
[Number of papers mentioning Carex limosa: 198; Any undated papers have been included at the end]

 

Anonymous (2013) Index. In ‘Encyclopedia of Quaternary Science (Second Edition)’. (Ed.^(Eds AE Editor-in-Chief: Scott) pp. 757-849. (Elsevier: Amsterdam). http://www.sciencedirect.com/science/article/pii/B9780444536433100007

Hájek M, Hájková P, Kočí M, Jiroušek M, Mikulášková E and Kintrová K (2013) Do we need soil moisture measurements in the vegetation–environment studies in wetlands? Journal of Vegetation Science 24, 127-37. http://dx.doi.org/10.1111/j.1654-1103.2012.01440.x

Hornibrook ERC (2013) The Stable Carbon Isotope Composition of Methane Produced and Emitted from Northern Peatlands. In ‘Carbon Cycling in Northern Peatlands’. (Ed.^(Eds  pp. 187-203. (American Geophysical Union). http://dx.doi.org/10.1029/2008GM000828

Jassey VEJ, Chiapusio G, et al. (2013) Above- and belowground linkages in Sphagnum peatland: climate warming affects plant-microbial interactions. Global Change Biology 19, 811-23. http://dx.doi.org/10.1111/gcb.12075

Jiroušek M, Poulíčková A, et al. (2013) Long-term and contemporary environmental conditions as determinants of the species composition of bog organisms. Freshwater Biology 58, 2196-207. http://dx.doi.org/10.1111/fwb.12201

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Grateful acknowledgment is made to the following: for plant names: Australian Plant Name Index, Australian National Herbarium http://www.anbg.gov.au/cpbr/databases/apni-search-full.html; ; The International Plant Names Index, Royal Botanic Gardens, Kew/Harvard University Herbaria/Australian National Herbarium http://www.ipni.org/index.html; Plants Database, United States Department of Agriculture, National Resources Conservation Service http://plants.usda.gov/;DJ Mabberley (1997) The Plant Book, Cambridge University Press (Second Edition); JH Wiersma and B Leon (1999) World Economic Plants, CRC Press; RJ Hnatiuk (1990) Census of Australian Vascular Plants, Australian Government Publishing Service; for information: Science Direct http://www.sciencedirect.com/; Wiley Online Library http://onlinelibrary.wiley.com/advanced/search; High Wire http://highwire.stanford.edu/cgi/search; Oxford Journals http://services.oxfordjournals.org/search.dtl; USDA National Agricultural Library http://agricola.nal.usda.gov/booleancube/booleancube_search_cit.html; for synonyms: The Plant List http://www.theplantlist.org/; for common names: http://en.wikipedia.org/wiki/Main_Page; etc.


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