Abstract
The term Milieu Souterrain Superficiel (MSS) has been used since the early 1980s in subterranean biology to categorize an array of different hypogean habitats. In general terms, a MSS habitat represents the underground network of empty air-filled voids and cracks developing within multiple layers of rock fragments. Its origins can be diverse and is generally covered by topsoil. The MSS habitat is often connected both with the deep hypogean domain—caves and deep rock cracks—and the superficial soil horizon. A MSS is usually characterized by peculiar microclimatic conditions, and it can harbor specialized hypogean, endogean, and surface-dwelling species. In light of the many interpretations given by different authors, we reviewed 235 papers regarding the MSS in order to provide a state-of-the-art description of these habitats and facilitate their study. We have briefly described the different types of MSS mentioned in the scientific literature (alluvial, bedrock, colluvial, volcanic, and other types) and synthesized the advances in the study of the physical and ecological factors affecting this habitat—i.e., microclimate, energy flows, animal communities, and trophic interactions. We finally described and reviewed the available sampling methods used to investigate MSS fauna.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arillo A, Gil-Martin J, Subias LS (1994) Oribatidos del M.S.S de las Islas Canarias. Poroscheloribatinae subfam. n. Acari, Oribatida. Mem Biospeol 21:1–6
Arnedo MA, Oromi P, Múrria C, Macías-Hernández N, Ribera C (2007) The dark side of an island radiation: systematics and evolution of troglobitic spiders of the genus Dysdera Latreille (Araneae: Dysderidae) in the Canary Islands. Invertebr Syst 21:623–660. doi:10.1071/IS07015
Ashmole PN, Ashmole MJ (1997) The land fauna of Ascension Island: new data from caves and lava flows, and a reconstruction of the prehistoric ecosystem. J Biogeogr 24:549–589
Assing V (2005) The first subanophthalmous species of Oxypoda Mannerheim from the Canary Islands (Coleoptera: Staphylinidae: Aleocharinae). Vieraea 33:151–154
Assmann T, Austin K, Boutaud E, Buse J, Chikatunov V, Drees C, Felix RFFL, Friedman A-L-L, Khoury F, Marcus T, Renan I, Schmidt C, Wrase DW (2015) The ground beetle supertribe Zuphiitae in the southern Levant (Coleoptera, Carabidae). Spixiana 38(2):237–262
Babalean A, Ilie V (2003) Some data concerning the harvestmen fauna (Arachnida, Opiliones) from the caras-severin country (Banat, Romania). Arch Biol Sci 55(3/4):101–106
Badino G (2004) Clouds in caves. S E K A 2:1–8
Badino G (2005) Underground drainage systems and geothermal flux. S E K A 3(2):1–25
Badino G (2010) Underground meteorology. What’s the weather underground? Acta Carsol 39(3):427–448. doi:10.3986/ac.v39i3.74
Baert L, Ransy M, Dethier M (2009) Les Araignées “cavernicoles” de Belgique. Bull Chercheurs de la Wallonie 48:5–16
Bareth C (1983) Diploures campodéidés du milieu souterrain superficiel de la région ariégeoise = Diplura Campodeidae from the superficial subterranean compartment of the Ariège. Mem Biospeol 10:67–71
Bareth C, Dethier M (2009) Les Diploures Campodéidés de Belgique. Bull Chercheurs de la Wallonie 48:17–24
Barranco P, Gilgado JD, Ortuño VM (2013) A new mute species of the genus Nemobius Serville (Orthoptera, Gryllidae, Nemobiinae) discovered in colluvial, stony debris in the Iberian Peninsula: a biological, phenological and biometric study. Zootaxa 3691(2):201–219. doi:10.11646/zootaxa.3691.2.1
Berg MP, Kniese JP, Bedaux JJM, Verhoef HA (1998) Dynamics and stratification of functional groups of micro-and mesoarthropods in the organic layer of a Scots pine forest. Biol Fert. Soils 26(4):268–284
Borges P (1993) First records from the mesocavernous shallow stratum (M.S.S.) from the Azores. Mem Biospeol 20:49–53
Bouillon M (2006) Amatar chez les savants. Amalthée, Paris
Bucciarelli I (1960) Ulteriori osservazioni sul rinvenimento di troglobi nel letto dei torrenti. Boll Soc Entomol Ital 90(9/10):170–171
Canadell J, Jackson RB, Ehleringer JR, Mooney HA, Sela OE, Schulze E-D (1996) Maximum rooting depth of vegetation types at the global scale. Oecologia 108:583–595
Carabajal E, García J, Rodríguez F (1999) Descripción de un nuevo género y una nueva especie de Trechini (Coleoptera:Caraboidea: Trechidae) de la cordillera cantábrica. Elytron 13:123–131
Cardoso P (2012) Diversity and community assembly patterns of epigean vs. troglobiont spiders in the Iberian Peninsula. Int J Speleol 41(1):83–94. doi:10.5038/1827-806X.41.1.9
Casale A (1988) Revisione degli Sphodrina (Coleoptera, Carabidae, Sphodrini). Monografia 5. Museo di Scienze Naturali, Torino
Casale A (2011) Two new subterranean, microphthalmous trechine beetles from the Mediterranean area, and a synonymic note (Coleoptera: Carabidae, Trechini). Contrib. Nat Hist 16:1–16
Casale A, Giachino PM (1988) Note su Sardaphaenops supramontanus Cerruti & Henrot, 1956 (Col. Carabidae), e descrizione di S. supramontanus grafittii n. subsp. Boll Mus Reg Sci Nat Torino 6(2):585–601
Casale A, Giachino PM (1989) Nuovi carabidae trechinae e catopidae bathysciinae della fauna sotterranea della Turchia (Coleoptera). Fragm Entomol 21(2):163–178
Casale A, Rondolini G (1983) Morphologie, distribution, écologie d’une espèce de Bathysciinae en milieu souterrain superficiel au Piémont (Coleoptera, Catopidae). Mem Biospeol 10:73–82
Casale A, Giachino PM, Vailati D, Vigna Taglianti A (1996) Specie nuove o poco note del genere Duvalius in Grecia (Coleoptera, Carabidae). Fragm Entomol 27(2):289–346
Chapman PRJ (1985) Are the cavernicoles found in hawaiian lava tubes just visiting? Proc Univ Bristol Spel Soc 17(2):175–182
Christian E (1985) Zur Collembolenfauna eines Permafrostbodens in der Karawanken-Nordkette. Carinthia 2(175/95):141–149
Christian E (1986) Onychiurus (Oligaphorura) hackeri n. sp., ein cavernicoler Springschwanz aus Niederösterreich (Hexapoda: Collembola. Ann Naturhist Mus Wien 87/B:177–180
Christian E (1987) Composition and origin of underground arthropod fauna in an extrazonal permafrost soil of Central Europe. Biol Fert. Soils 3(1–2):27–30
Christian E (1998a) Die Fauna der Katakomben des Wiener Stephansdomes. Verh Zool Bot Ges Österreich 135:41–60
Christian E (1998b) Megalothorax sanctistephani sp. n. from the catacombs of St. Stephen’s Cathedral, Vienna (Collembola: Neelida. Ann Naturhist Mus Wien 100B:15–18
Christian E (1998c) Eukoenenia austriaca from the catacombs of St. Stephen’s Cathedral in the centre of Vienna and the distribution of palpigrades in Austria (Arachnida: Palpigradida: Eukoeneniidae. Senckenberg Biol 77:241–245
Christian E, Spötl C (2010) Karst geology and cave fauna of Austria: a concise review. Int J Speleol 39(2):71–90
Christiansen KA (2005) Morphological adaptations. In: Culver D, White WB (eds) Encyclopedia of caves. Elsevier, Amsterdam, pp. 517–527
Crouau-Roy B (1987) Spéciation et structure génétique des populations chez les coléoptères Speonomus. Mem Biospeol 14:1–312
Crouau-Roy B, Crouau Y, Source CF (1992) Dynamic and temporal structure of the Troglobitic beetle Speonomus hydrophilus (Coleoptera: Bathysciinae. Ecography 15(1):12–18
Culver DC, Pipan T (2009a) Superficial subterranean habitats—gateway to the subterranean realm? Cave and karst. Science 35:5–12
Culver DC, Pipan T (2009b) The biology of caves and other subterranean habitats. Oxford University Press, Oxford, New York
Culver DC, Pipan T (2010) Climate, abiotic factors, and the evolution of subterranean life. Acta Carsol 39(3):577–586. doi:10.3986/ac.v39i3.85
Culver DC, Pipan T (2014) Shallow subterranean habitats: ecology, evolution, and conservation. Oxford University Press, USA
Decu V, Racovitza G (1983) Sur la conservation des ecosystemes forestiers et souterrains des zones calcaires. Mem Biospeol 10:177–178
Decu V, Racovitza G, Vaczy C (1991) Sur la nomenclature des milieux souterrains edaphiques et des annexes directes du sol. Trav Inst Spéol Émile Racovitza 30:63–67
Delay B, Juberthie C (1981) Les problemes d’introduction d’energie dans le milieu souterrain superliciel. Mem Biospeol 8:45–52
Delay B, Juberthie C, Ruffat G (1983) Description de Speonomus colluvii n. sp. du milieu souterrain superficiel des Pyrénées ariégeoises. Mem Biospeol 10:249–256
Deltshev C, Lazarov S, Naumova M, Stoev P (2011) A survey of spiders (Araneae) inhabiting the euedaphic soil stratum and the superficial underground compartment in Bulgaria. Arachnol Mitt 40:33–46
Derkarabetian S, Steinmann DB, Hedin M (2010) Repeated and time-correlated morphological convergence in cave-dwelling harvestmen (Opiliones, Laniatores) from montane western North America. PLoS One 5(5):e10388. doi:10.1371/journal.pone.0010388
Dethier M, Hubart JM, Vivier A (2002) Les Speonomus de la grotte de Ramioul: 30 ans de suivi d’une transplantation. Bull Inst R Sci Nat Belg Biol 72(suppl):131–135
Deuve T (2014) Deux nouveaux Trechini anophtalmes de Chine, du milieu souterrain superficiel et de la faune du sol (Coleoptera, Caraboidea). Coleopteres 20(2):5–12
Domingo-Quero T, Alonso-Zarangara AM (2010) Soil and litter sampling, including MSS. Abc Taxa 8(1):173–212
Ducarme X, André HM, Wauthy G, Lebrun P (2004) Comparison of endogeic and cave communities: microarthropod density and mite species richness. Eur J Soil Biol 40:129–138
Eberhard S, Giachino PM (2011) Tasmanian Trechinae and Psydrinae (Coleoptera, Carabidae): a taxonomic and biogeographic synthesis, with description of new species and evaluation of the impact of Quaternary climate changes on evolution of the subterranean fauna. Subterr Biol 9:1–72
Enghoff H (2012) Three new species of Dolichoiulus millipedes from the underground of Gran Canaria, with notes on the circumscription of the genus (Diplopoda, Julida, Julidae). Eur J Taxon 15:1–12
Enghoff H (2013) New montane, subterranean congeners of a littoral millipede, genus Thalassisobates (Diplopoda: Julida: Nemasomatidae. J Nat Hist 47(23–24):1613–1625
Enghoff H, Reboleira ASPS (2013) Subterranean species of Acipes Attems, 1937 (Diplopoda, Julida, Blaniulidae). Zootaxa 3652(4):485–491. doi:10.11646/zootaxa.3652.4.6
Fresneda J, Bourdeau C (2012) Una nuova especie del género Bathysciola Jeannel, 1910 de la vertiente norte de los Pireneos, Francia (Coleoptera, Leiodidae, Cholevini, Leptodirini). Heteropterus Rev Entomol 12(1):22–27
Fresneda J, Escola O (2000) Distribución del género Stygiophyes Fresneda, 1998 y descripción de Stygiophyes aldomai allomorphus ssp. n. (Coleoptera, Cholevidae, Leptodirinae). Misc Zool 23(2):55–68
Fresneda J, Hernado C (1994) Speomus escollae n. sp. (Coleoptera, Cholevidae) del M.S.S. Del Prepirineo Oscense (España). Mem Biospeol 21:63–66
Fresneda J, Hernando C, Lagar A, Ortuño VM (1997) Sistematica y geonemia de un coleoptero subterraneo de España: Oscadytes rovirai Lagar, 1975 (Coleoptera: Pterostichidae). Ann Soc Entomol Fr 33(2):205–213
Frisch J, Oromí P (2006) New species of subterranean Micranops cameron from the Canary Islands (Coleoptera, Staphylinidae, Paederinae), with a redescription of Micranops bifossicapitatus (Outerelo & Oromi, 1987). Deut Entomol Z 53:23–37
Galán C (2001) Primeros datos sobre el Medio Subterráneo Superficial y otros habitats subterráneos transicionales en el País Vasco. Munibe Cienc Nat SC Aranzadi 51:67–78
Galán C (2003) Ecología de la cueva de Guardetxe y del MSS circundante: un estudio comparado de ecosistemas subterráneos en materiales del Cretácico tardío del Arco Plegado Vasco. SCAweb. http://www.aranzadi.eus/old/karstologia/pdf-s/GUARDETXE.PDF. Accessed 30 May 2014
Galán C (2008) Opiliones cavernícolas de Gipuzkoa y zonas próximas (Arachnida: Opiliones). http://www.aranzadi.eus/category/espeleologia/articulos-de-consulta/page/19. Accessed 30 May 2014
Galán C, Nieto M (2011) Fauna hipógea del MSS y mesocavernas en conglomerados Permo-Triásicos (Mandoegi, Gipuzkoa). http://www.aranzadi.eus/espeleologia/fauna-hipogea-del-mss-y-mesocavernas-en-conglomerados-permo-triasicos-mandoegi-gipuzkoa. Accessed 30 May 2014
Genest C, Juberthie C (1983) Description d’Aphaenops colluvii (Coléoptères Trechinae) du milieu souterrain superificiel des Pyrénées ariégeoises. Mem Biospeol 10:295–304
Gers C (1986) Syntopie de deux espèces de Speonomus (Coléoptère Bathysciinae troglobies) dans le milieu souterrain superficiel: I Aspects spatio-temporels. Rev Ecol Biol Sol (devenue Eur J Soil Biol) 23(4):423–443
Gers C (1989) Speonomus orgibetensis n. sp. Coleoptera Bathysciinae troglobie du milieu souterrain superficiel. Ann Soc Ent France 25(1):105–116
Gers C (1992) Écologie et biologie des arthropodes terrestres du Milieu Souterrain Superficiel: fonctionnement et écologie évolutive. Thèse d’état, Univ Toulouse III, France, pp 402
Gers C (1993) Population of Triphleba hyalinata (Meigen, 1830; Diptera, Phoridae) in the superficial underground compartment (MSS or rock fissures and voids in scree. Eur J Soil Biol 29(2):35–41
Gers C (1998) Diversity of energy fluxes and interactions between arthropod communities: from soil to cave. Acta Oecol 19(3):205–213
Giachino PM (1995) Una nuova Bureschiana Guérourguiev, 1963 dei rodopi bulgari e considerzioni sulla linea filetica di Atticiella Coiffait, 1955 (Coleoptera, Cholevidae, Leptodirinae). Fragm Entomol 26:305–315
Giachino PM, Vailati D (2005) Problemi di protezione dell’ambiente ipogeo e note sull’impatto delle attività di ricerca in ambiente sotterraneo. Atti Convegno Nazionale Bossea (5–8 settembre 2003), “L’Ambiente Carsico e l’Uomo”, pp 303–314
Giachino PM, Vailati D (2006) Ulteriori considerazioni su alcuni aspetti biologici ed ecologici dell’ambiente sotterraneo. Atti Convegno Nazionale Bossea (21–22 maggio 2005), “L’Ambiente e carsismo: progressi degli studi sulla soglia del XXI secolo”, pp 195–200
Giachino PM, Vailati D (2010) The subterranean environment. Hypogean life, concepts and collecting techniques. WBA Handbooks 3, Verona, p. 132
Giachino PM, Vailati D (2016) Riflessioni sulla terminologia biospeleologica: i concetti di troglobio, troglofilo e troglosseno. Atti Convegno Nazionale Bossea (22–23 Giugno 2013), “La ricerca carsologica in Italia”, pp 187–192
Gilgado JD, Ortuño VM (2015) Intra- and inter-population polymorphism in Coletinia maggii (Grassi, 1887) (Zygentoma: Nicoletiidae), an inhabitant of soil, mesovoid shallow substratum (MSS) and caves—a challenge for the strict classification of subterranean fauna? Zootaxa 3920(1):085–100
Gilgado JD, López H, Oromí P, Ortuño VM (2011) Description of the first larval instar of Broscus crassimargo Wollaston, 1865 (Carabidae: Broscini) and notes about the presence of the species in the mesovoid shallow substratum of La Gomera (Canary Islands, Spain). Entomol Fennica 22:45–55
Gilgado JD, Ledesma E, Cuesta E, Arrechea E, Zapata de la Vega JL, Sánchez-Ruiz A, Ortuño VM (2014) Dima assoi Pérez Arcas 1872 (Coleoptera: Elateridae): from montane to hypogean life. An example of exaptations to the subterranean environment? Ann Soc Entomol Fr (NS). Int J Entomol 50(3/4):264–271. doi:10.1080/00379271.2014.981421
Gilgado JD, Enghoff H, Ortuño VM (2015a) The hypogean Iberian genus Typhlopsychrosoma Mauriès, 1982 (Diplopoda, Chordeumatida, Vandeleumatidae): distribution map, key to species, first record in a Mesovoid Shallow Substratum (MSS) and detailed iconography of T. baeticaense (Mauriès, 2013). Zootaxa 3937(2):337–346
Gilgado JD, Enghoff H, Tinaut A, Mauriès JP, Ortuño VM (2015b) Sierra Nevada (Granada, Spain): a high-altitude biogeographical crossroads for millipedes (Diplopoda), with first data on its MSS fauna and description of a new species of the genus Ceratosphys Ribaut, 1920 (Chordeumatida: Opisthocheiridae. Zootaxa 4044(3):391–410. doi:10.11646/zootaxa.4044.3.4
Gilgado JD, Enghoff H, Tinaut A, Ortuño VM (2015c) Hidden biodiversity in the Iberian Mesovoid Shallow Substratum (MSS): new and poorly known species of the millipede genus Archipolydesmus Attems, 1898 (Diplopoda, Polydesmidae). Zool Anz 258:13–38
Giurginca A, Ilie V (2003) Preliminary data regarding the Oniscidea (Isopoda, Crustacea) from the North-Western part of the Caraş-Severin County (Banat, Romania). Arch Biol Sci Belgrade 55(3/4):81–86
Halse SA, Pearson GB (2014) Troglofauna in the vadose zone: comparison of scraping and trapping results and sampling adequacy. Subterranean. Biol 13:17–34. doi:10.3897/subtbiol.13.6991
Hendriks MR (2010) Introduction to physical hydrology. University Press, Oxford, p. 352
Howarth FG (1972) Cavernicoles in lava tubes on the island of Hawaii. Science 175:325–326. doi:10.1126/science.175.4019.325
Howarth FG (1980) The zoogeography of specialized cave animals: a bioclimatic model. Evolution 34:394–406. doi:10.2307/2407402
Howarth FG (1983) Ecology of cave arthropods. Annu Rev Entomol 28(1):365–389. doi:10.1146/annurev.en.28.010183.002053
Howarth FG (1993) High-stress subterranean habitats and evolutionary change in cave-inhabiting arthropods. Am Nat 142:S65–S77
Huber C, Molenda R (2004) Nebria (Nebriola) praegensis sp. nov., ein Periglazialrelikt im Süd-Schwarzwald/Deutschland, mit Beschreibung der Larven (Insecta, Coleoptera, Carabidae). Contrib. Nat Hist 4:1–28
Hunt M, Millar I (2001) Cave invertebrate collecting guide. Department of Conservation technical series, Wellington, NZ, p. 29
Ilie V (2003) Chilopoda from the edaphic and subterranean environments in the Resita-Carasova Area. A preliminary note. Arch Biol Belgrade 55(3/4):87–92
Ilie V, Negrea ŞT, Mitić B (2003) The diversity of the Chilopoda species from the karstic area of the Anina Mountains (Banat, Romania). Arch Biol Belgrade 55(3/4):93–100
Isaia M, Paschetta M, Lana E, Pantini P, Schönhofer AI, Christian E, Badino G (2011) Subterranean arachnids of the western Italian Alps (Arachnida: Araneae, Opiliones, Palpigradi, Pseudoscorpiones). Monografia 47. Museo Regionale di Scienze Naturali, Torino, p. 325
Ishikawa K (1987) Two new species of Epicrius (Acarina, Epicriidae) collected by driven traps in Japan. J Speleol Soc Japan 12:29–34
Izquierdo I, Medina AL (1992) A new subterranean species of Sympocle Hebard from Gran Canaria (Canary island) (Blattaria, Blattellidae). Fragm Entomol 24(1):39–44
Janssens F, Dethier M (2005) Contribution à la connaissance des Collemboles des milieux souterrains de Belgique. Bull Chercheurs de la Wallonie 44:145–165
Jeanne C (1976) Carabiques de la Péninsule Ibérique (2e supplement). Bull Soc Linn Bordeaux 6(7/10):27–43
Jeannel R (1926) Faune Cavernicole de la France, avec une Etude des Conditions d’Existence dans le Domaine Souterrain. P. Lechevallier, Paris, p. 334
Jeannel R (1942) La genèse des faunes terrestres. Elémentes de biogéograèphie. Presses Universitaires de France éd, Paris, p. 514
Jeannel R (1943) Les fossils vivants des cavernes. Gallimard, Paris, p. 322
Jiménez-Valverde A, Gilgado JD, Sendra A, Pérez-Suárez G, Herrero-Borgoñón JJ, Ortuño VM (2015) Exceptional invertebrate diversity in a scree slope in Eastern Spain. J Insect Conserv 19(4):713–728. doi:10.1007/s10841-015-9794-1
Juberthie C (1983) Le milieu souterrain: Étendue et Composition. Mem Biospeol 10:17–65
Juberthie C (1984) La colonisation du milieu souterrain; théories et modeles, relations avec la spéciation et l’évolution souterraine. Mem Biospeol 11:65–102
Juberthie C (2000) The diversity of the karstic and pseudokarstic hypogea habitats in the world. In: Wilkens H, Culver DC, Humphreys WF (eds) Subterranean ecosystems (ecosystems of the world 30). Elsevier, Amsterdam, pp. 17–39
Juberthie C, Decu V (1994) Structure et diversité du domaine souterrain; particularités des habitats et adaptations des espèces. Encyclopaedia Biospeologica I:5–22
Juberthie C, Decu V (2006) Interstitial habitat (terrestrial). In: Gunn J (ed) Encyclopedia of caves and karst science. Taylor and Francis Group, New York, pp 984–987
Juberthie C, Delay B (1981) Ecological and biological implications of the existence of a “superficial underground compartment”. In: Beck BF (Ed) Proceedings of the 8th International Congress of Speleology, Bowling Green, KY, Georgia, USA 1:203–206
Juberthie C, Delay B, Bouillon M (1980a) Sur l’existence d’un milieu souterrain superficiel en zone non calcaire. C R Acad SC, Paris, T 290:49–52
Juberthie C, Delay B, Bouillon M (1980b) Extension du milieu souterrain superficiel en zone non-calcaire: description d’un nouveau milieu et de son peuplement par les coleopteres troglobies. In: Evolution des coleopteres souterrains et endoges. Mem Biospeol 7:19–52
Juberthie C, Delay B, Bouillon M (1981a) Sur l’existence du milieu souterrain superficiel en zone calcaire. In: Les entrees d’energie dans le karst et communications libres. Mem Biospeol 8:77–93
Juberthie C, Delay B, Decu V, Racovitza G (1981b) Premières données sur la faune des microespaces du milieu souterrain superficiel de Roumanie. Trav Inst Spéol Émile Racovitza 20:103–111
Juberthie C, Dupré E, Jalut C (1990) Aphaenops rebereti, espèce “endogée” du sous genre Geaphaenops présente dans le MSS de la vallée d’Ossau, daté 12000 BP. Mem Biospeol 17:181–190
Karaman IM (2009) The taxonomical status and diversity of Balkan sironids (Opiliones, Cyphophthalmi) with descriptions of twelve new species. Zool J Linnean Soc 156:260–318. doi:10.1111/j.1096-3642.2009.00446.x
Kasahara S, Ito Y (1987) A new Pterostichus (Coleoptera, Carabidae) from the Upper Hypogean Zone of Central Shikoku, Southwest Japan. Kontyû 55:139–145
Kopecký O, Tuf IH (2013) Podzemní populace pavouka plachetnatky ctyrzubé (Oreonetides quadridentatus (Wunderlich, 1972)). Západoceské entomologické listy 4:106–109
Kriticos DJ, Webber BL, Leriche A, Ota N, Macadam I, Bathols J, Scott JK (2012) CliMond: global high resolution historical and future scenario climate surfaces for bioclimatic modelling. Methods Ecol Evol 3:53–64. doi:10.1111/j.2041-210X.2011.00134.x
Langourov M, Lazarov S, Stoev P, Guéorguiev B, Deltshev C, Petrov B, Andreev S, Simov N, Bekchiev R, Antonova V, Ljubomirov D, Dedov I, Georgiev D (2014) New and interesting records of the MSS and cave fauna of Vitosha Mt., Bulgaria. Proceedings of Balkan Speleological Conference “Sofia’2014″, Sofia, Bulgaria, 28–30 March 2014: pp 66–76
Laška V, Mikula J, Tuf IH (2008) Jak hluboko žijí půdní bezobratlí? [How deep do soil invertebrates live?]. Živa 56(4):169–171
Laška V, Kopecký O, Růžička V, Mikula J, Véle A, Šarapatka B, Tuf IH (2011) Vertical distribution of spiders in soil. J Arachnol 39(3):393–398. doi:10.1636/P09-75.1
Latella L, Rampini M (1994) Bathysciolay delayi. Nuova specie di Leptodirino dei Monti Lepini (Coleoptera, Bathysciole). Fragm Entomol 26(1):141–150
Latella L, Stoch F (2001) Biospeleologia. In: Grotte e fenomeno carsico - Quaderni Habitat 1, Museo Friulano di Storia Naturale, Udine, pp 68–81
Lencioni V, Bernabò P, Latella L (2010) Cold resistance in two species of cave-dwelling beetles (Coleoptera: Cholevidae. J Therm Biol 35:354–359. doi:10.1016/j.jtherbio.2010.07.004
López H, Oromí P (2010) A pitfall trap for sampling the mesovoid shallow substratum (MSS) fauna. Speleobiology. Notes 2:7–11
Machado A (2008) Three new endogean species of Laparocerus Schönherr, 1834 from the Canary Islands (Coleoptera, Curculionidae. J Nat Hist 42(17):1277–1288
Machado A (2011) Nuevos taxones de Laparocerus Schoenherr, 1834 de El Hierro y La Gomera, islas Canarias (Coleoptera, Curculionidae, Entiminae. Graellsia 67:57–90
Machado A, López H (2015) A new species of Oromia (Coleoptera: Curculionidae) from the Canary island. Zootaxa 3931(1):117–126
Machado Carrillo A (1992) Monografía de los carábidos de las Islas Canarias: (Insecta, Coleoptera). Instituto de Estudios Canarios, La Laguna, p. 734
Magrini P, Onnis C, Marcia P, Casale A (2012) Typhloreicheia grafittii, nuova specie della Sardegna centro-orientale (Coleoptera, Carabidae). Fragm Entomol 44(1):1–12
Mahnert V (2011) A nature’s treasury: Pseudoscorpion diversity of the Canary Islands, with the description of nine new species (Pseudoscorpiones, Chthoniidae, Cheiridiidae) and new records. Rev Iber Aracnol 19:27–45
Mammola S, Piano E, Giachino PM, Isaia M (2015a) Seasonal dynamics and micro-climatic preference of two Alpine endemic hypogean beetles. Int J Speleol 44(3):239–249. doi:10.5038/1827-806X.44.3.3
Mammola S, Isaia M, Arnedo MA (2015b) Alpine endemic spiders shed light on the origin and evolution of subterranean species. PeerJ 3:e1384. doi:10.7717/peerj.1384
Mammola S, Hormiga G, Arnedo MA, Isaia M (2016) Unexpected diversity in the relictual European spiders of the genus Pimoa (Araneae, Pimoidae). Invertebr Syst IS16017
Marshall SA, Anderson RS, Roughley RE, Behan-Pelletier V, Danks HV (1994) Terrestrial arthropod biodiversity: Planning a study and recommended sampling techniques. BSC (Terrestrial Arthropods) pp 32
Martìn LJ, Gargìa H, Oromí YP (2001) Classification of terrestral subterranean fauna of vulcanic substrate in the Canary Island. Int J Speleol 30A(1/4):15–26. doi:10.5038/1827-806X.30.1.2
Masumoto K (2001) New genus and species of the tribe Adeliini (Coleoptera, Tenebrionidae) from the Upper Hypogean Zone of Southwest China. J Speleol Soc Japan 26:44–49
Medina AL, Oromí P (1990) First data on the superficial underground compartment on La Gomera (Canary islands). Mem Biospeol 17:87–91
Medina AL, Oromí P (1991) Wolltinerfia anagae n. sp., nuevo coleóptero hipogeo de la isla de Tenerife (Coleoptera, Carabidae). Mem Biospeol 18:215–218
Monguzzi R (1982) Studi sul genere Boldoriella Jeannel: sistematica, geonemia, ecologia (Coleoptera Carabidae Trechinae). Atti Soc Ital Sci Nat Mus Civ St Nat Milano 123(2/3):189–236
Monguzzi R (2011) Sintesi delle attuali conoscenze sul genere Allegrettia Jeannel, 1928 (Coleoptera, Carabidae, Trechinae). Estratto Ann Mus Civ St Nat. “G Doria”. Genova 103:1–70
Monguzzi R, Regalin R (2001) Una nuova specie di Boldoriella s. str. dell’Alta Brianza (Lombardia) (Coleoptera, Carabidae, Trechinae). G Ital Entomol 9:305–311
Monzini V (2013) Note su Boldoriella del gruppo carminatii: Boldoriella silvanae stat. nov. e osservazioni sistematiche sulle specie affini (Coleoptera Carabidae Trechinae). Boll Soc Entomol Ital 145(1):3–8
Moore GW, Sullivan GN (1964) Out of phase seasonal temperature fluctuations in Cathedral Cave, Kentucky. Geol Soc Am Spec Pap 76:313
Moseley M (2009) Are all caves ecotones? Cave and Karst. Science 39(2):53–58
Motta L, Motta M (2015a) Thermic characterization of the Underground Superficial Compartment near Pugnetto cave system. Proceedings in ARSA 1:216–221
Motta L, Motta M (2015b) The climate of the Borna Maggiore di Pugnetto cave (Lanzo Valley, Western Italian Alps). Universal Journal of. Geoscience 3(3):90–102. doi:10.13189/ujg.2015.030303
Nae A (2008) Data concerning the Araneae Fauna from the aninei mountains Karsik Area (Banat, Romania). Trav Inst Speol “E Racovitza” 47:53–63
Nae I (2010) New report of Sorex alpinus Schinz, 1837 (Mammalia: Insectivora) from Piatra Craiului Mountains (Romania). Trav Inst Speol “E Racovitza” 49:179–183
Nae I, Nae A (2009) Small Mammals and M.S.S. The First Case Study from Piatra Craiului Mountains. Summer School in Ecology and Biodiversity (25–30 May), Understanding Patterns and Processes, pp 56. doi: 10.13140/RG.2.1.2253.5767
Negrea S, Boitan V (2001) An ecological and biogeographical overview of the terrestrial and aquatic subterranean environments from Romania. Travaux du Museum National d’Histoire Naturelle “Grigore Antipa” 43:367–424
Nitzu E (2000) Edaphicolus, endogeous and subterranean coleoptera from the Movile karstic area (Southern Dobrogea, Romania). Trav Inst Speol “E Racovitza” 36(1997):73–98
Nitzu E (2012) The Cholevinae of Romania (exclusive of Leptodirini) (Coleoptera, Leiodidae) with special reference to the hypogeal records. Zootaxa 3620:351–378
Nitzu E (2016) Scree habitat as ecological refuge: a case study on the Carpathian endemic species Platynus glacialis and Pterostichus pilosus wellensii (Coleoptera, Carabidae) in their first case of co-occurrence in the rock debris. North-Western. J Zool 12(1):33–39
Nitzu E, Ilie V (2003) Contribution to the knowledge of edaphic and subterranean Coleoptera from the Closani karstic area (Oltenia, Romania) - with special references on the Mesovoid Shallow Substratum. Trav Inst Speol “E Racovitza” 41-42(2002–2003):159–168 2004
Nitzu E, Nae A, Popa I (2007) Eco-faunistic study on the invertebrate fauna (Araneae, Collembola, Coleoptera) from the Varghis Gorge Natural Reserve, with special note on the micro-refugial role of subterranean habitats. Trav Inst Speol “E Racovitza” 41-42(2002–2003):159–168 2007
Nitzu E, Nae A, Giurginca A, Popa I (2010) Invertebrate communities from the mesovoid shallow substratum of the Carpatho-Euxinic area: ecofaunistic and zoogeographic analyses. Trav Inst Speol “E Racovitza” 49:41–79
Nitzu E, Popa I, Giurginca A (2011) Invertebrate fauna (Coleoptera, Collembola, Diplopoda, Isopoda) collected in the karst areas of the Aninei - Locvei Mountains. Trav Inst Speol “E Racovitza” t L 15–35
Nitzu E, Nae A, Băncilă R, Popa I, Giurginca A, Plăiaşu R (2014) Scree habitats: ecological function, species conservation and spatial-temporal variation in the arthropod community. Syst Biodivers 12(1):65–75
Novak T, Perc M, Lipovsek S, Janzekovic F (2012) Duality of terrestrial subterranean fauna. Int J Speleol 41(2):181–188. doi:10.5038/1827-806X.41.2.5
Novak T, Janžekovič F, Lipovšek S (2013) Contribution of non-troglobiotic terrestrial invertebrates to carbon input in hypogean habitats. Acta Carsol 42(2/3):301–309
Novak T, Šajna N, Antolinc E, Lipovšek S, Devetak D, Janžekovič F (2014) Cold tolerance in terrestrial invertebrates inhabiting subterranean habitats. Int J Speleol 43(3):265–272. doi:10.5038/1827-806X.43.3.3
Oromí P (2004) Biospeleology in Macaronesia. AMCS Bulletin 19:98–104
Oromí P (2010) La fauna subterránea de Canarias: un viaje desde las lavas hasta las cuevas. In: Afonso Carrillo J (ed) Volcanes, mensajeros del fuego, creadores de vida, forjadores del paisaje. Instituto de Estudios Hispánicos de Canarias, Puerto de la Cruz, pp. 63–98
Oromí P, Medina AL, Tejedor ML (1986) On the existence of a superficial underground compartment in the canary islands. Actas del IX Congreso Internacional de Espeleología, Barcelona 2:147–151
Oromí P, Medina AL, Martin JL (1989) The genus Licinopsis Bedel (Col. Carabidae) in the Canary Islands and its distribution in the underground environment. Mem Biospeol 16:35–40
Oromí P, López H, Mahnert V (2010) Diversity and allopatric distribution in the Canarian MSS: a case study in an old island. Moškrič A, Trontelj P (eds): Abstract bookn/ 20th International Conference on Subterranean Biology, Postojna, Slovenia (29 August - 3 September 2010) International Society for Subterranean Biology, Postojna pp 29
Ortuño VM, Gilgado JD (2010) Update of the knowledge of the Ibero-Balearic Carabidae (Coleoptera): Faunistics, biology, distribution. Ent Bl 106:233–264
Ortuño VM, Toribio M (1994) Nuevos datos sobre la distribución y ecología de Nebria vuillefroyi Chaudoir, 1866 (Col., Nebriidae). Boletín de la Asociación española de Entomología 18(1/2):204–205
Ortuño VM, Valverde JA (2011) Taxonomic notes on Trechini and description of a new hypogean species from the Iberian Peninsula (Coleoptera: Carabidae: Trechinae). Ann Soc Entomol Fr (NS). Int J Entomol 47:1–2 21-32
Ortuño VM, Fresneda J, Baz A (2011) New data on Troglorites breuili Jeannel 1919 (Coleoptera: Carabidae: Pterostichini): a hypogean Iberian species with description of a new subspecies. Ann Soc Entomol Fr (NS). Int J Entomol 46(3/4):537–549
Ortuño VM, Gilgado JD, Valverde JA, Sendra A, Pérez-Suárez G, Herrero-Borgoñón JJ (2013) The “Alluvial Mesovoid Shallow Substratum”, a new subterranean habitat. PLoS One 8(10):e76311. doi:10.1371/journal.pone.0076311
Ortuño VM, Gilgado JD, Tinaut A (2014a) Subterranean ants: the case of Aphaenogaster cardenai (Hymenoptera: Formicidae. J Insect Sci 14(212):1–7
Ortuño VM, Cuesta E, Gilgado JD, Ledesma E (2014b) A new hypogean Trechus Clairville (Coleoptera, Carabidae, Trechini) discovered in a non-calcareous Superficial Subterranean Habitat of the Iberian System (Central Spain). Zootaxa 3802(3):359–372
Owen JA (1995) A pitfall trap for the repetitive sampling of hypogeal arthropod faunas. Entomologistʼs. Record 107:225–228
Piano E, Mammola S, Pantini P, Isaia M (2014) Comparison between spider assemblages inhabiting the cave and the associated MSS in the Pugnetto hypogean complex (NW Italy). 28th European Congress of Arachnology, Torino (24–29 August), Abstract book, pp 122
Pipan T, Culver DC (2005) Shallow subterranean habitats. In: Culver D, WB W (eds) Encyclopedia of caves. Elsevier, Amsterdam, pp. 683–689
Pipan T, López H, Oromí P, Polak S, Culver DC (2011) Temperature variation and the presence of troglobionts in terrestrial shallow subterranean habitats. J Nat Hist 45:257–273. doi:10.1080/00222933.2010.523797
Polak S (1997) A classification of the subterranean environment and cave fauna. Acta Carsol 26/2(30):351–359
Polak S (2012) Vertical migration of the subterranean beetles as a respond to annual temperature fluctuations. 21th International Conference on Subterranean Biology Košice, Pavol Jozef Šafárik Univerzity, Abstract book, pp 90
Popa I (2010) First records and rare species of Collembola in the Romanian fauna—the Piatra Craiului Massif (the carpathians). Trav Inst Speol “E Racovitza” t 49:87–96
Prous X, Ferreira RS, Martins RP (2004) Ecotone delimitation: epigean-hypogean transition in cave ecosystems. Austral Ecol 29:374–382
Racovitza EG (1907) Éssai sur les problèmes biospéologiques. Biospéologica I, Arch Zool Exp Gén Sér 4(6):371–488
Racovitza G (1983) Sur les relations dynamiques entre le milieu souterrain superficiel et le milieu cavernicole. Mem Biospeol 10:85–90
Racovitza G, Serban M (1982) Recherches sur la dynamique de la faune du milieu souterrain superficiel. Travaux du Museum d’Histoire Naturelle “Grigore Antipa” 24:33–42
Raska P, Kirchner K, Raska M (2011) Winter microclimatic regime of low-altitude scree slopes and its relation to topography: case study from the Ceske Stredohori Mts. (N Czech Republic). Geogr Fis Dinam Quat 34:235–246
Reboleira ASPS, Enghoff H (2014) Millipedes (Diplopoda) from caves of Portugal. J Cave Karst Stud 76(1):20–25. doi:10.4311/2013LSC0113
Reboleira ASPS, Borges PAV, Gonçalves F, Serrano ARM, Oromí P (2011) The subterranean fauna of a biodiversity hotspot region - Portugal: an overview and its conservation. Int J Speleol 40(1):23–37
Rendoš M, Mock A, Jászay T (2012) Spatial and temporal dynamics of invertebrates dwelling karstic mesovoid shallow substratum of Sivec National Nature Reserve (Slovakia), with emphasis on Coleoptera. Biologia 67(6):1143–1151
Rendoš M, Čejka T, Šteffek J, Mock A (2014) Land snails from subterranean traps exposed in a forested scree slope (Western Carpathians, Slovakia). Folia Malacol 22(4):255–261
Rendoš M, Mock A, Miklisová D (2016a) Terrestrial isopods and myriapods in a forested scree slope: subterranean biodiversity, depth gradient and annual dynamics. J Nat Hist:1–14
Rendoš M, Raschmanová N, Kováč Ľ, Miklisová D, Mock A, Ľuptáčik P (2016b) Organic carbon content and temperature as substantial factors affecting diversity and vertical distribution of Collembola on forested scree slopes. Eur J Soil Biol 75:180–187
Revel J-C, Gers C (1993) Tentative de chronologie des formations superficielles du versant sud de la vallée de La Ballongue (Pyrénées ariégeoises): Applications à la genèse du milieu souterrain superficiel. Quaternaire 4(4):175–184
Rizzo V, Comas J, Fadrique F, Fresneda J, Ribera I (2013) Early Pliocene range expansion of a clade of subterranean Pyrenean beetles. J Biogeogr 40:1861–1873
Romero A (2012) Caves as biological space. Polymath: An Interdisciplinary Arts and Sciences Journal 2(3):1–15
Rubink WL, Murray KD, Baum KA, Pinto MA (2003) Long term preservation of DNA from honey bees (Apis mellifera) collected in aerial pitfalll traps. Tex J Sci 55:159–168
Růžička V (1982) Modifications to improve the efficiency of pitfall traps. Newsletter of the British Arachnological Society 34:2–4
Růžička V (1988) The longtimely exposed rock debris pitfalls. Věst Čs Společ Zool 52:238–240
Růžička V (1990) The spiders of stony debris. Acta Zool Fenn 190:333–337
Růžička V (1996) Spiders in stony debris in South Bohemian mountains. Silva Gabreta 1:186–194
Růžička V (1999a) The first steps in subterranean evolution of spiders (Araneae) in Central Europe. J Nat Hist 33:255–265
Růžička V (1999b) The freezing scree slopes and their arachnofauna. In: Möseler BM, Molenda R (Eds) Lebensraum Blockhlade. Decheniana-Beihefte 37:141–147
Růžička J (2000) Beetles communities (Insecta: Coleoptera) of rocky debris on Kamenec Hill (Czech Republic). Acta Univ Purk Stud Biol 4:175–182
Růžička V (2011) Central European habitats inhabited by spiders with disjunctive distributions. Pol J Ecol 59:367–380
Růžička V, Dolanský J (2016) Catching of spiders in shallow subterranean habitats in the Czech Republic. Arachnol Mitt 51:43–48
Růžička V, Klimeš L (2005) Spider (Araneae) communities of scree slopes in the Czech Republic. J Arachnol 33:280–289
Růžička V, Thaler K (2002) Spiders (Araneae) from deep screes in the Northern Alps (Tyrol, Austria). Ber Nat Med Verein Innsbruck 89:137–141
Růžička V, Zacharda M (1994) Arthropods of stony debris in the Krkonos ˇe Mountains, Czech Republic. Arctic and Alpine Res 26:332–338
Růžička V, Hajer J, Zacharda M (1995) Arachnid population patterns in underground cavities of a stony debris field (Araneae, Opiliones, Pseudoscorpionidea, Acari: Prostigmata, Rhagidiidae. Pedobiologia 39:42–51
Růžička V, Zacharda M, Němcová L, Šmilauer P, Nekola CJ (2012) Periglacial microclimate in low-altitude scree slopes supports relict biodiversity. J Nat Hist 46:2145–2157
Růžička V, Šmilauer P, Mlejnek R (2013) Colonization of subterranean habitats by spiders in Central Europe. Int J Speleol 42:133–140
Santamaria S, Enghoff H, Reboleira ASPS (2014) Laboulbeniales on millipedes: the genera Diplopodomyces and Troglomyces. Mycologia 106(5):1027–1038
Schlick-Steiner BC, Steiner FM (2000) Eine neue Subterranfalle und Fänge aus Kärnten. Carinthia II 190:475–482
Schmidt F (1832) Beitrag zu Krain’s Fauna. Illyrisch- es Blatt, 21st Jan 1832, Laibach (= Ljubljana) 3:9–10
Sendra A, Garay P, Ortuño VM, Gilgado JD, Teruel S, Reboleira ASPS (2014) Hypogenic versus epigenic subterranean ecosystem: lessons from eastern Iberian Peninsula. Int J Speleol 43(3):253–264
Serrano ARM, Borges PAV (2010) The cave-adapted arthropod fauna from Madeira archipelago. Arquipelago. Life and Marine Sciences 27:1–7
Sket B (2008) Can we agree on an ecological classification of subterranean animals? J Nat Hist 42(21/22):1549–1563
Skubała P, Dethier M, Madej G, Solarz K, Mąkol J, Kaźmierski A (2013) How many mite species dwell in subterranean habitats? A survey of Acari in Belgium. Zool Anz 252:307–318
Smithson A (1991) Inter-relatonships between cave and outside air temperatures. Theor Appl Climatol 44:65–73
Soil Survey Staff (1999) Soil taxonomy. A basic system of soil classification for making and interpreting soil surveys. 2nd Ed. Agriculture handbook 436. USDA-Natural Resources Conservation Service, Washington, DC, p. 871
Sugaya K, Yamasako J (2014) A new species of the genus Ishikawatrechus (Coleoptera, Trechinae) from Japan. Zootaxa 3768(2):189–195
Timm A, Dayan T, Levanony T, Wrase DW, Assmann T (2008) Towards combined methods for recording ground beetles: pitfall traps, hand picking and sifting in Mediterranean habitats of Israel. In: Penev L, Erwin T, Assmann T (eds) Back to the roots and back to the future? Towards a new synthesis amongst taxonomic, ecological and biogeographical approaches in Carabidology. Pensoft, Sofia, Moscow, pp. 397–408
Townsend JI (2010) Trechini (Insecta: Coleoptera: Carabidae: Trechinae). Fauna of New Zealand 62:101
Tuf IH, Tajovský K, Mikula J, Laška V, Mlejnek R (2008) Terrestrial isopods (isopoda: Oniscidea) in and near the Zbrašov Aragonit caves (Czech Republic). In: Zimmer M, Charfi-Cheikhrouha F, Taiti S (eds) Proceedings of the international symposium of terrestrial isopod biology, ISTIB-07. Shaker, Aachen, pp. 33–36
Uéno SI (1972a) A new endogean Trechiana (Coleoptera, Trechinae) found in an old mine of the Izu Peninsula, Central Japan. Annot Zool Jap 45:111–117
Uéno SI (1972b) A new endogean Trechiana (Coleoptera, Trechinae) from the Northern side of Central Japan. Annot Zool Jap 45:42–48
Uéno SI (1980) The anophthalmic trechine beetles of the group of Trechiama ohshimai. Bull Nat Sci Mus Tokio Serie A 6(4):195–274
Uéno SI (1981a) A remarkable new trechine beetle found in a superficial subterranean habitat near Tokyo, Central Japan. J Speleol Soc Japan 6:1–10
Uéno SI (1981b) New anophthalmic Trechiama (Coleoptera, Trechinae) from Northern Shikoku, Japan. J Speleol Soc Japan 6:11–18
Uéno SI (1982) Occurrence of Trechiama fujiwaraorum (Coleoptera, Trechinae) in the Upper Hypogean Zone. J Speleol Soc Japan 7:100
Uéno SI (1983a) Occurrence of a microphthalmic Trechiama (Coleoptera, Trechinae) on the Island of Shodoshima in West Japan. J Speleol Soc Japan 8:1–6
Uéno SI (1983b) New anophthalmic Trechiama (Coleoptera, Trechinae) from the Upper Hypogean Zone of Northeast Japan. J Speleol Soc Japan 8:7–17
Uéno SI (1983c) An addition to the genus Oroblemus (Coleoptera, Trechinae). J Speleol Soc Japan 8:18–20
Uéno SI (1983d) A new Trechiama Coleoptera, Trechinae from the upper hypogean zone of eastern Shikoku, southwest Japan. Proceedings of the Japanese Society of Systematic Zoology 25:36–42
Uéno SI (1985a) The derivation of terrestrial cave animals. Zool Sci 2
Uéno SI (1985b) The group of Trechiama oni Coleoptera, Trechinae. Its distribution and differentiation. Mem Nat Sci Mus Tokyo 18:163–198
Uéno SI (1987) The derivation of terrestrial cave animals. Zool Sci 4:593–606
Uéno SI (1991) A new anophthalmic Trechiama (Coleoptera, Trechinae) from the Upper Hypogean Zone of central Taiwan. Elytra 192:265–271
Uéno SI (1992) Two new upper hypogean Trechiama (Coleoptera, Trechinae) of zoogeographical interest. J Speleol Soc Japan 17:23–32
Uéno SI (1998) Occurrence of Chaetotrechiama procerus Coleoptera, Trechinae in the upper hypogean zone. Elytra 26(1):79–80
Uéno SI (2003a) New records of upper hypogean Trechiama (Coleoptera, Trechinae) in Central Shikoku, Southwest Japan. Elytra 31(1):243–244
Uéno SI (2003b) Occurrence of Yamautidius anaulax Coleoptera, Trechinae in the upper hypogean zone. Elytra 31(2):429–430
Uéno SI (2009) Occurrence of Trechoblemus postilenatus (Coleoptera, Trechinae) in the Upper Hypogean Zone of Northeastern Shikoku, Southwest Japan. Elytra 37(1):19–20
Uéno SI, Ito Y (2002) A new upper hypogean species of the subgenus Yuadorgus (Coleoptera, Trechinae) from Southwestern Shikoku, Southwest Japan. Elytra 30(2):285–289
Uéno SI, Ito Y (2005) A new upper hypogean Trechiama (Coleoptera, Trechinae) from the Sanuki Hills in Northeastern Shikoku, Japan. Elytra 33(1):25–29
Uéno SI, Lafer GS (1992) A new anophthalmic Trechiama (Coleoptera, Trechinae) from Central Hokkaido, Northeast Japan. Elytra 20(2):137–143
Uéno SI, Masato M (2000) A new upper hypogean Trechiama Coleoptera, Trechinae from near the Southwestern Corner of Hyogo Prefecture, West Japan. Elytra 281:31–36
Uéno SI, Naito T (2006) Occurrence of Yamautidius (Coleoptera, Trechinae) in the Upper Hypogean Zone of Southwestern Shikoku, Southwest Japan. Elytra 34(2):249–256
Uéno SI, G.Sh L, Sundukov YN (1995) Discovery of a new Trechodine (Coleoptera, Trechinae) in the Russian Far East. Elytra 23(1):109–117
Vailati D (1990) Insubriella paradoxa nuovo genere nuova specie di Bathysciinae delle Prealpi Italiane (Coleoptera Catopidae). Natura Bresciana 25:213–229
Vicente MC, Enghoff H (1999) The millepiede of the Canary Island (Myriapoda: Diplopoda). Vieraea 27:183–204
Vit S (2005) Addenda to the Scydmaenid fauna of the Canary Islands (La Gomera, Gran Canaria) with emphasis on Euconophron (Coleoptera: Scydmaenidae, Cyrtoscydmini). Vieraea 33:185–192
Vit S, Oromí P (2004) Contribution to the Scydmaenid fauna of La Gomera (Canary Islands) (Coleoptera: Scydmaenidae). Rev Acad Canar Cienc 15(3/4):321–328
Watanabe Y (1986) Two new Quedius (Coleoptera, Staphylinidae) from the Upper Hypogean Zone of Central Honshu. J Speleol Soc Japan 11:19–25
White WB, Culver DC (2005) Cave, definition of. In: Culver DC, White WB (eds) Encyclopedia of caves. Elsevier, Amsterdam, pp. 81–85
Zaballos JP (1998) Un nuevo Geocharis de Almería (Coleoptera, Caraboidea, Trechidae, Anillini). Zoologica Baetica 8(1997):171–180
Zacharda M (1993) Glacial relict Rhagidiidae (Acari: Prostigmata) from superficial underground enclosures in the Krkonoše Mountains, Czechoslovakia. J Nat Hist 27:47–61
Zacharda M (2000a) New species of the rhagidiid genus Foveacheles (Acari: Prostigmata: Eupodoidea) with a lyrifissure-like structure on the chelicerae. J Nat Hist 34:247–265
Zacharda M (2000b) New species of the genus Troglocheles (Acari: Prostigmata: Rhagidiidae) from Oetztal alps, with a key to adult species of the genus. J Nat Hist 34:463–478
Zacharda M (2000c) New and little-known species of Rhagidiidae from talus ecosystems, in the Czech Republic and Austria. J Zool (Lond) 251:105–118
Zacharda M (2000d) A new species of the genus Evadorhagidia (Acari: Prostigmata: Rhagidiidae) from talus ecosystems, with a key to the world species of the genus. Acarologia 1999 40(4):373–383
Zacharda M, Kučera T (2006) Diversity of predatory Rhagidiid mites (Acari: Rhagidiidae) inhabiting montane stony debris in the Otztal Alps, North Tyrol. Arc Alp Res 38(2):292–300
Zacharda M, Gude M, Kraus S, Hauckà C, Molenda R, Růžička V (2005) The relict mite Rhagidia gelida (Acari, Rhagidiidae) as a biological cryoindicator of periglacial microclimate in European highland screes. Arc Alp Res 37(3):402–408
Zacharda M, Gude M, Růžička V (2007) Thermal regime of three low elevation scree slopes in Central Europe. Permafrost Periglac 18:301–308
Acknowledgments
We thank Arianna Bucci for useful consultancy regarding geological issues. Erhard Christian provided important literature data about catacombs. We are indebted to the four reviewers—Jose D. Gilgado, Eugen Nitzu and two anonymous reviewers—for their help in improving the quality of the manuscript through their useful comments during the review process.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by: Sven Thatje
Rights and permissions
About this article
Cite this article
Mammola, S., Giachino, P.M., Piano, E. et al. Ecology and sampling techniques of an understudied subterranean habitat: the Milieu Souterrain Superficiel (MSS). Sci Nat 103, 88 (2016). https://doi.org/10.1007/s00114-016-1413-9
Received:
Revised:
Accepted:
Published:
DOI: https://doi.org/10.1007/s00114-016-1413-9