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

Listing of Interesting Plants of the World:

Nephroma parile

 

 

This species name was not found in The Plant List

 

This species has no synonyms in The Plant List

 

Common names:

Kidney Lichen

 

 

Trends (five databases) 1901-2013:
[Number of papers mentioning Nephroma parile: 30]

 

 

Popularity of Nephroma parile over time
[Left-hand Plot: Plot of numbers of papers mentioning Nephroma parile (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 Nephroma parile 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: 207]

 

lichens (9), Indicator species (7), Cyanolichens (6), Red-listed species (6), Fagus sylvatica (4), Forest management (4), Fungi (4), Lichen (4), Biodiversity (3), Bryophytes (3), forestry (3), Macrolichens (3), Populus tremula (3), antimicrobial activity (2), antioxidant activity (2), Bark pH (2), Community structure (2), conservation (2), Cryptogams (2), Dispersal strategies (2), Dry season (2), <ARROW Environmental gradient (2), epiphytic lichens (2), Epiphytic richness (2), Espagne (2), España (2), Green-tree retention (2), habitat quality (2), Habitat restoration (2), Lichen conservation (2), Lobaria pulmonaria (2), Nationally rare lichen species (2), Nephroma (2), Nostoc (2), old-growth (2), Retention trees (2), Spain (2), Species richness (2), symbiosis (2), Variable retention harvesting (2), Wood decay (2), Woodland key habitats (2), Air quality (1), aspen (1), Beetles (1), Biodiversity conservation (1), Biskopstorp (1), boreal forests (1), Bryophyte (1), Canopy lichens (1), carotenoids (1), Climate change (1), Coarse woody debris (1), Coarse woody debris (CWD) (1), Coccomyxa (1), colonization (1), Core–periphery theory (1), Core–periphery theory (1), corticolo (1), corticolous (1), Cyanobacteria (1), cytotoxic activity (1), Dead wood (1), Decay class (1), Dendrochronology (1), Divergence date (1), Diversity (1), dynamic landscape (1), extinction (1), Extinction debt (1), flore DOWN>lichénique épiphyte (1), Forest Act (1), forest conservation (1), forest continuity (1), Forest health monitoring' (1), Forest history (1), functional guild (1), Galice (1), Galicia (1), Greenland (1), Habitat loss (1), Inland temperate rainforest (1), Internet resource (1), ITS (1), Land-use change (1), Lichen diversity (1), Lichenes (1), lichenized fungi (1), líquenes (1), líquenes epifíticos (1), Liverwort (1), Lobarion (1), Local scale (1), long-distance dispersal (1), Macaronesia (1), management (1), Methanol extract (1)…..

 

[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]

 

ornamental (47.01), timber (21.54), pesticide (12.17), fruit (2.32), medicinal (2.24), weed (1.75), poison (1.39), starch (1.05), cereal (0.74), grain legume (0.73)…..

 

[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]

 

Degtjarenko P, Marmor L, Tõrra T, Lerch M, Saag A, Randlane T and Scheidegger C (2016) Impact of alkaline dust pollution on genetic variation of Usnea subfloridana populations. Fungal Biology 120, 1165-1174. //www.sciencedirect.com/science/article/pii/S1878614616300605

Belinchón R, Yahr R and Ellis CJ (2015) Interactions among species with contrasting dispersal modes explain distributions for epiphytic lichens. Ecography 38, 762-768. http://dx.doi.org/10.1111/ecog.01258

Ellis CJ (2015) Ancient woodland indicators signal the climate change risk for dispersal-limited species. Ecological Indicators 53, 106-114. //www.sciencedirect.com/science/article/pii/S1470160X15000527

Gjerde I, Blom HH, Heegaard E and Sætersdal M (2015) Lichen colonization patterns show minor effects of dispersal distance at landscape scale. Ecography 38, 939-948. http://dx.doi.org/10.1111/ecog.01047

Calviño-Cancela M, López de Silanes ME, Rubido-Bará M and Uribarri J (2013) The potential role of tree plantations in providing habitat for lichen epiphytes. Forest Ecology and Management 291, 386-395. //www.sciencedirect.com/science/article/pii/S0378112712006998

Coxson D, Björk C and Bourassa MD (2013) The influence of regional gradients in climate and air pollution on epiphytes in riparian forest galleries of the upper Fraser River watershed. Botany. 92, 23-45. http://dx.doi.org/10.1139/cjb-2013-0151

Kaasalainen U, Fewer DP, Jokela J, Wahlsten M, Sivonen K and Rikkinen J (2013) Lichen species identity and diversity of cyanobacterial toxins in symbiosis. New Phytologist 198, 647-651. http://dx.doi.org/10.1111/nph.12215

O’Brien HE, Miadlikowska J and Lutzoni F (2013) Assessing population structure and host specialization in lichenized cyanobacteria. New Phytologist 198, 557-566. http://dx.doi.org/10.1111/nph.12165

Aragón G, Martínez I and García A (2012) Loss of epiphytic diversity along a latitudinal gradient in southern Europe. Science of The Total Environment 426, 188-195. http://www.sciencedirect.com/science/article/pii/S0048969712004147

Fedrowitz K, Kaasalainen U and Rikkinen J (2012) Geographic mosaic of symbiont selectivity in a genus of epiphytic cyanolichens. Ecology and Evolution 2, 2291-2303. http://dx.doi.org/10.1002/ece3.343

Fedrowitz K, Kuusinen M and Snäll T (2012) Metapopulation dynamics and future persistence of epiphytic cyanolichens in a European boreal forest ecosystem. Journal of Applied Ecology 49, 493-502. http://dx.doi.org/10.1111/j.1365-2664.2012.02113.x

Kosanić MM, Ranković BR and Stanojković TP (2012) Antioxidant, antimicrobial and anticancer activities of three Parmelia species. Journal of the Science of Food and Agriculture 92, 1909-1916. http://dx.doi.org/10.1002/jsfa.5559

Schei FH, Blom HH, Gjerde I, Grytnes J-A, Heegaard E and Sætersdal M (2012) Fine-scale distribution and abundance of epiphytic lichens: environmental filtering or local dispersal dynamics? Journal of Vegetation Science 23, 459-470. http://dx.doi.org/10.1111/j.1654-1103.2011.01368.x

 

 

References 1901-2013 (and links to abstracts):
[Number of papers mentioning Nephroma parile: 30; Any undated papers have been included at the end]

 

Aragón G, Martínez I and García A (2012) Loss of epiphytic diversity along a latitudinal gradient in southern Europe. Science of The Total Environment 426, 188-195.  http://www.sciencedirect.com/science/article/pii/S0048969712004147

Fedrowitz K, Kaasalainen U and Rikkinen J (2012) Geographic mosaic of symbiont selectivity in a genus of epiphytic cyanolichens. Ecology and Evolution 2, 2291-2303.  http://dx.doi.org/10.1002/ece3.343

Fedrowitz K, Kuusinen M and Snäll T (2012) Metapopulation dynamics and future persistence of epiphytic cyanolichens in a European boreal forest ecosystem. Journal of Applied Ecology 49, 493-502.  http://dx.doi.org/10.1111/j.1365-2664.2012.02113.x

Kosanić MM, Ranković BR and Stanojković TP (2012) Antioxidant, antimicrobial and anticancer activities of three Parmelia species. Journal of the Science of Food and Agriculture 92, 1909-1916.  http://dx.doi.org/10.1002/jsfa.5559

Schei FH, Blom HH, Gjerde I, Grytnes J-A, Heegaard E and Sætersdal M (2012) Fine-scale distribution and abundance of epiphytic lichens: environmental filtering or local dispersal dynamics? Journal of Vegetation Science 23, 459-470.  http://dx.doi.org/10.1111/j.1654-1103.2011.01368.x

Sérusiaux E, Villarreal A JC, Wheeler T and Goffinet B (2011) Recent origin, active speciation and dispersal for the lichen genus Nephroma (Peltigerales) in Macaronesia. Journal of Biogeography 38, 1138-1151.  http://dx.doi.org/10.1111/j.1365-2699.2010.02469.x

Fritz Ö and Heilmann-Clausen J (2010) Rot holes create key microhabitats for epiphytic lichens and bryophytes on beech (Fagus sylvatica). Biological Conservation 143, 1008-1016.  http://www.sciencedirect.com/science/article/pii/S0006320710000170

Nascimbene J, Brunialti G, Ravera S, Frati L and Caniglia G (2010) Testing Lobaria pulmonaria (L.) Hoffm. as an indicator of lichen conservation importance of Italian forests. Ecological Indicators 10, 353-360.  http://www.sciencedirect.com/science/article/pii/S1470160X09001149

Botting RS and DeLong C (2009) Macrolichen and bryophyte responses to coarse woody debris characteristics in sub-boreal spruce forest. Forest Ecology and Management 258, Supplement, S85-S94.  http://www.sciencedirect.com/science/article/pii/S0378112709006136

Fritz Ö, Niklasson M and Churski M (2009) Tree age is a key factor for the conservation of epiphytic lichens and bryophytes in beech forests. Applied Vegetation Science 12, 93-106.  http://dx.doi.org/10.1111/j.1654-109X.2009.01007.x

Perhans K, Appelgren L, Jonsson F, Nordin U, SÖderstrÖm B and Gustafsson L (2009) Retention patches as potential refugia for bryophytes and lichens in managed forest landscapes. Biological Conservation 142, 1125-1133.  http://www.sciencedirect.com/science/article/pii/S0006320709000603

Perhans K, Appelgren L, Jonsson F, Nordin U, Söderström B and Gustafsson L (2009) Retention patches as potential refugia for bryophytes and lichens in managed forest landscapes. Biological Conservation 142, 1125-1133.  http://www.sciencedirect.com/science/article/pii/S0006320709000603

Radies D, Coxson D, Johnson C and Konwicki K (2009) Predicting canopy macrolichen diversity and abundance within old-growth inland temperate rainforests. Forest Ecology and Management 259, 86-97.  http://www.sciencedirect.com/science/article/pii/S0378112709007063

Fritz Ö, Gustafsson L and Larsson K (2008) Does forest continuity matter in conservation? – A study of epiphytic lichens and bryophytes in beech forests of southern Sweden. Biological Conservation 141, 655-668.  http://www.sciencedirect.com/science/article/pii/S0006320707004624

Hurme E, Mönkkönen M, Sippola A-L, Ylinen H and Pentinsaari M (2008) Role of the Siberian flying squirrel as an umbrella species for biodiversity in northern boreal forests. Ecological Indicators 8, 246-255.  http://www.sciencedirect.com/science/article/pii/S1470160X0700026X

Geiser LH and Neitlich PN (2007) Air pollution and climate gradients in western Oregon and Washington indicated by epiphytic macrolichens. Environmental Pollution 145, 203-218.  http://www.sciencedirect.com/science/article/pii/S0269749106002120

Nascimbene J, Marini L and Nimis PL (2007) Influence of forest management on epiphytic lichens in a temperate beech forest of northern Italy. Forest Ecology and Management 247, 43-47.  http://www.sciencedirect.com/science/article/pii/S0378112707003283

Nordén B, Paltto H, Götmark F and Wallin K (2007) Indicators of biodiversity, what do they indicate? – Lessons for conservation of cryptogams in oak-rich forest. Biological Conservation 135, 369-379.  http://www.sciencedirect.com/science/article/pii/S0006320706004307

Laufer Z, Beckett RP and Minibayeva FV (2006) Co-occurrence of the Multicopper Oxidases Tyrosinase and Laccase in Lichens in Sub-order Peltigerineae. Ann. Bot. 98, 1035-1042.  http://aob.oxfordjournals.org/cgi/content/abstract/98/5/1035

Paltto H, Nordén B, Götmark F and Franc N (2006) At which spatial and temporal scales does landscape context affect local density of Red Data Book and Indicator species? Biological Conservation 133, 442-454.  http://www.sciencedirect.com/science/article/pii/S0006320706003028

Pykälä J, Heikkinen RK, Toivonen H and Jääskeläinen K (2006) Importance of Forest Act habitats for epiphytic lichens in Finnish managed forests. Forest Ecology and Management 223, 84-92.  http://www.sciencedirect.com/science/article/pii/S0378112705006845

Sætersdal M, Gjerde I and Blom HH (2005) Indicator species and the problem of spatial inconsistency in nestedness patterns. Biological Conservation 122, 305-316.  http://www.sciencedirect.com/science/article/pii/S0006320704003490

Lohtander K, Oksanen I and Rikkinen J (2003) Genetic diversity of green algal and cyanobacterial photobionts in Nephroma (Peltigerales). The Lichenologist 35, 325-339.  http://www.sciencedirect.com/science/article/pii/S0024282903000513

Wiklund E and Wedin M (2003) The phylogenetic relationships of the cyanobacterial lichens in the Lecanorales suborder Peltigerineae. Cladistics 19, 419-431.  http://www.sciencedirect.com/science/article/pii/S0748300703000823

Alvarez Andrés J and Carballal Duràn R (2000) Flora liquenica sobre Quercus robur L. en galicia (NW España). Cryptogamie Mycologie 21, 103-117.  http://www.sciencedirect.com/science/article/pii/S018115840000107X

Hedenås H and Ericson L (2000) Epiphytic macrolichens as conservation indicators: successional sequence in Populus tremula stands. Biological Conservation 93, 43-53.  http://www.sciencedirect.com/science/article/pii/S0006320799001135

Ohlson M, Söderström L, Hörnberg G, Zackrisson O and Hermansson J (1997) Habitat qualities versus long-term continuity as determinants of biodiversity in boreal old-growth swamp forests. Biological Conservation 81, 221-231.  http://www.sciencedirect.com/science/article/pii/S0006320797000013

Mikko K (1996) Cyanobacterial macrolichens on Populus tremula as indicators of forest continuity in Finland. Biological Conservation 75, 43-49.  http://www.sciencedirect.com/science/article/pii/0006320795000399

Czeczuga B and Alstrupt V (1987) The carotenoid content of lichens from Greenland. Biochemical Systematics and Ecology 15, 297-301.  http://www.sciencedirect.com/science/article/pii/0305197887900020

(1934) Index. Transactions of the British Mycological Society 18, 373-384.  http://www.sciencedirect.com/science/article/pii/S0007153634800228

AragÓn G, MartÍnez I and GarcÍa A Loss of epiphytic diversity along a latitudinal gradient in southern Europe. Science of The Total Environment 426, 188-195.  http://www.sciencedirect.com/science/article/pii/S0048969712004147

Aragón G, Martínez I and Rosa Burgaz A Contribución al conocimiento de los líquenes epifíticos del Valle de Sanabria (Zamora, España). Cryptogamie Mycologie 20, 137-152.  http://www.sciencedirect.com/science/article/pii/S0181158499800177

Burgaz AR and Martínez I The genus Nephroma Ach. in the Iberian Peninsula. Cryptogamie Mycologie 20, 225-235.  http://www.sciencedirect.com/science/article/pii/S018115840087030X

Calviño-Cancela Ma, LÓpez de Silanes MaE, Rubido-BarÁ M and Uribarri J The potential role of tree plantations in providing habitat for lichen epiphytes. Forest Ecology and Management 291, 386-395.  http://www.sciencedirect.com/science/article/pii/S0378112712006998

Fritz Ãr and Heilmann-Clausen J Rot holes create key microhabitats for epiphytic lichens and bryophytes on beech (Fagus sylvatica). Biological Conservation 143, 1008-1016.  http://www.sciencedirect.com/science/article/pii/S0006320710000170

Nascimbene J, Brunialti G, Ravera S, Frati L and Caniglia G Testing Lobaria pulmonaria (L.) Hoffm. as an indicator of lichen conservation importance of Italian forests. Ecological Indicators 10, 353-360.  http://www.sciencedirect.com/science/article/pii/S1470160X09001149

Ranković B, Ranković D, Kosanić M and Marić D Antioxidant and antimicrobial properties of the lichens Anaptychya ciliaris, Nephroma parile, Ochrolechia tartarea and Parmelia centrifuga. Central European journal of biology. 5, 649-655.  http://dx.doi.org/10.2478/s11535-010-0043-z

 


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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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