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References (67)
-
Krister Smith, L. Maul, R. Barkai, A. Gopher (2013)
To catch a chameleon, or actualism vs. natural history in the taphonomy of the microvertebrate fraction at Qesem Cave, IsraelJournal of Archaeological Science, 40
-
M Belmaker (2017)
Climate change and human responses: a zooarchaeological perspective -
(2016)
Open spaces portal -
(2001)
Micromammal taphonomy -
J. Chaline (1977)
Rodents, evolution, and prehistoryEndeavour, 1
-
J. Obuch (2011)
Spatial and temporal diversity of the diet of the tawny owl (Strix aluco), 5
-
H. Voet (1994)
Comparing the predictive accuracy of models using a simple randomization testChemometrics and Intelligent Laboratory Systems, 25
-
C. Braak, S. Juggins (1993)
Weighted averaging partial least squares regression (WA-PLS): an improved method for reconstructing environmental variables from species assemblagesHydrobiologia, 269-270
-
Y. Fernández-Jalvo, P. Andrews, C. Denys, C. Sesé, E. Stoetzel, Dolores Marin-Monfort, Dolores Pesquero (2016)
Taphonomy for taxonomists: Implications of predation in small mammal studiesQuaternary Science Reviews, 139
-
E. Tchernov (1996)
Rodent faunas, chronostratigraphy and paleobiogeography of the southern Levant during the QuaternaryActa Zoologica Cracoviensia, 39
-
S. Juggins, H. Birks (2012)
Quantitative Environmental Reconstructions from Biological Data -
Denné Reed, C. Denys (2011)
The Taphonomy and Paleoenvironmental Implications of the Laetoli Micromammals -
Thalassa Matthews, Amy Rector, Z. Jacobs, A. Herries, C. Marean (2011)
Environmental implications of micromammals accumulated close to the MIS 6 to MIS 5 transition at Pinnacle Point Cave 9 (Mossel Bay, Western Cape Province, South Africa)Palaeogeography, Palaeoclimatology, Palaeoecology, 302
-
O. Comay, T. Dayan (2018)
What determines prey selection in owls? Roles of prey traits, prey class, environmental variables, and taxonomic specializationEcology and Evolution, 8
-
M. Sternberg, Carly Golodets, M. Gutman, A. Perevolotsky, E. Ungar, J. Kigel, Z. Henkin (2015)
Testing the limits of resistance: a 19‐year study of Mediterranean grassland response to grazing regimesGlobal Change Biology, 21
-
(2016)
Tracking barn owls using GPS tags -
(2011)
Precipitation maps -
Plinio Montoya, M. Alberdi, Luis Barbadillo, J. Made, J. Morales, Xabier Murelaga, Enrique Peñalver, F. Robles, A. Bustos, Antonio Sánchez, Borja Sanchiz, Dolores Soria, Zbigniew Szyndlar (2001)
Une faune très diversifiée du Pléistocène inférieur de la Sierra de Quibas (province de Murcia, Espagne)Comptes Rendus De L Academie Des Sciences Serie Ii Fascicule A-sciences De La Terre Et Des Planetes, 332
-
E. Tchernov (2002)
The Faunal Sequence of the Southwest Asian Middle Paleolithic in Relation to Hominid Dispersal Events -
(1947)
Examining the diet of the barn owl -
C. Coetzee (1963)
The prey of owls in the Kruger National Park as indicated by owl pellets collected during 1960-61Koedoe, 6
-
D. Kruska (2005)
Handbuch der Säugetiere EuropasMammalian Biology, 70
-
A. Fisher (1993)
The Hawks and Owls of the United States in Their Relation to Agriculture -
S. Juggins (2012)
rioja: Analysis of Quaternary Science Data -
L. Maul, A. Bruch, Krister Smith, G. Shenbrot, R. Barkai, A. Gopher (2016)
Palaeoecological and biostratigraphical implications of the microvertebrates of Qesem Cave in IsraelQuaternary International, 398
-
A. Kersten (1992)
Rodents and Insectivores from the Palaeolithic Rock Shelter of Ksar 'Akil (Lebanon) and their palaeoecological Implications.Paleobiology, 18
-
Thalassa Matthews (2000)
Predators, prey and the palaeoenvironmentSouth African Journal of Science, 96
-
Denné N. Reed, Christiane Denys (2010)
Paleontology and Geology of Laetoli: Human Evolution in Context -
V. Popov, E. Canzio, B. Giaccio (2014)
Late Quaternary Small Mammals and Paleotemperatures in Bulgaria and Italy -
(2012)
Bildbestimmungsschlüssel für Kleinsäugerschädel aus Gewöllen -
Y. Fernández-Jalvo (1995)
Small mammal taphonomy at la Trinchera de Atapuerca (Burgos Spain) A remarkable example of taphonomic criteria used for stratigraphic correlations and palaeoenvironment interpretations. -
S Juggins, JB Birks (2012)
Tracking environmental change using lake sediments data handling and numerical techniques -
Y. Fernández-Jalvo, P. Andrews (1992)
Small mammal taphonomy of Gran Dolina, Atapuerca (Burgos), SpainJournal of Archaeological Science, 19
-
P. Stahl (1996)
The recovery and interpretation of microvertebrate bone assemblages from archaeological contextsJournal of Archaeological Method and Theory, 3
-
O. Comay, T. Dayan (2017)
Taphonomic signatures of owls: New insights into micromammal assemblagesPalaeogeography, Palaeoclimatology, Palaeoecology, 492
-
(2003)
Micromammal paleoecology: past and present relationships between African small mammals and their habitats -
A. Hawbecker (1945)
Food Habits of the Barn OwlThe Condor, 47
-
Gábor Rácz (2010)
Mammals of Turkey and Cyprus. Rodentia II: Cricetinae, Muridae, Spalacidae, Calomyscidae, Capromyidae, Hystricidae, Castoridae, 91
-
(1929)
The great horned owl in Manitoba -
(1993)
A field guide to the land mammals of Israel their tracks and signs -
L. Weissbrod, T. Dayan, D. Kaufman, M. Weinstein-Evron (2005)
Micromammal taphonomy of el-Wad Terrace, Mount Carmel, Israel: distinguishing cultural from natural depositional agents in the Late NatufianJournal of Archaeological Science, 32
-
D. Davis (1958)
Notes on some small mammals in the Kalahari Gemsbok National Park, with special reference to those preyed upon by Barn OwlsKoedoe, 1
-
Tarkan Yorulmaz (2009)
Studies on the morphology and karyology on the genus Apodemus from Turkey, with some notes on the bioecology -
S. Juggins (2013)
Quantitative reconstructions in palaeolimnology: new paradigm or sick science?Quaternary Science Reviews, 64
-
M. Qumsiyeh (1996)
Mammals of the Holy Land -
(2011)
Ecological change and the extinction -
M. Belmaker (2017)
The Southern Levant During the Last Glacial and Zooarchaeological Evidence for the Effects of Climate-Forcing on Hominin Population Dynamics -
C. Herrera, F. Hiraldo (1976)
Food-niche and trophic relationships among European owlsOrnis scandinavica, 7
-
R. Lyman (2014)
Paleoenvironmental implications of two relative indicator rodent taxa during the Pleistocene to Holocene transition in south‐eastern Washington state, USAJournal of Quaternary Science, 29
-
R. Terry (2007)
Inferring predator identity from skeletal damage of small-mammal prey remainsEvolutionary Ecology Research, 9
-
D. Lay (1967)
A study of the mammals of Iranc resulting from the Street Expedition of 1962-63, 54
-
(2002)
Discriminating prey species in barn owl (Tyto alba) pellets from Flanders' ecological regions, Belgium—a multivariate approach through correspondence analysis -
H. Southern (2008)
TAWNY OWLS AND THEIR PREYIbis, 96
-
Y. Sagi, J. Shadur (1986)
Society for the Protection of Nature in Israel.Nature Study, 39
-
M. Belmaker, D. Nadel, E. Tchernov (2017)
Micromammal Taphonomy in the Site of Ohalo II (19 Ky., Jordan Valley)Archaeofauna
-
D. Avery (1981)
Micromammals as palaeoenvironmental indicators and an interpretation of the Late Quaternary in the southern Cape Province, South AfricaAnnals of the South African Museum. Annale van die Suid-Afrikaanse Museum, 85
-
M. Belmaker, E. Hovers (2011)
Ecological change and the extinction of the Levantine Neanderthals: implications from a diachronic study of micromammals from Amud Cave, IsraelQuaternary Science Reviews, 30
-
E Tchernov (1998)
Neanderthals and modern humans in Western Asia -
A Dolev, A Perevolotsky (2002)
The red book of the vertebrates in Israel: nature and park authority -
N. Levin, Eldad Elron, A. Gasith (2009)
Decline of wetland ecosystems in the coastal plain of Israel during the 20th century: Implications for wetland conservation and managementLandscape and Urban Planning, 92
-
H. Southern, D. Bunn, A. Warburton, R. Wilson (1982)
The Barn Owl -
(2011)
The use of barn owls for controlling rodent pests in agriculture -
Y. Fernández-Jalvo, Y. Fernández-Jalvo, Christiane Denys, Peter Andrews, T. Williams, Y. Dauphin, Louise Humphrey (1998)
Taphonomy and palaeoecology of Olduvai Bed-I (Pleistocence, Tanzania).Journal of human evolution, 34 2
-
E. Evans, J. Couvering, P. Andrews (1981)
Palaeoecology of Miocene sites in Western KenyaJournal of Human Evolution, 10
-
P Montoya, MT Alberdi, LJ Barbadillo (2001)
Une faune très diversifiée du Pléistocène inférieur de la Sierra de Quibas (province de Murcia, Espagne)Cr Acad Sci II A, 332
-
D. Avery, P. Andrews (1990)
Owls, Caves and Fossils -
(1990)
Some problems of the taphonomy of small mammals
- Publisher
- Springer Journals
- Copyright
- Copyright © 2018 by Springer-Verlag GmbH Germany, part of Springer Nature
- Subject
- Earth Sciences; Earth Sciences, general; Archaeology; Chemistry/Food Science, general; Geography, general; Life Sciences, general; Anthropology
- ISSN
- 1866-9557
- eISSN
- 1866-9565
- DOI
- 10.1007/s12520-018-0608-8
- Publisher site
- See Article on Publisher Site
Abstract
Micromammal assemblages are often used in paleoecological reconstructions. However, in studies to date, the environmental variables reconstructed were not shown to drive micromammal community structure before the reconstruction was attempted. Furthermore, the relative abundance data is too often dismissed despite its potential paleoecological value. Here we chose to reconstruct the botanical succession stage known to impact micromammal communities in the Mediterranean zone of Israel. We used weighted averaging partial least squares (WAPLS) regression to model the connection between botanical succession phase and the micromammal faunas as reflected in Tyto alba pellets. In addition to cross-validation, we validated our model using historical T. alba pellet data and contemporary maps. Moreover, we tested the repercussions of misidentifying the owl species in archaeological micromammal assemblages by applying our model to Recent assemblages collected by other owl species. Our WAPLS model differentiated forested environments from garrigue or grassland dominated ones in both the cross-validation and in the reconstructed historical environments. However, urban environments were not well distinguished from grasslands and garrigues, and misidentifying the owl species severely compromised model performance. Our results stress the potential insight deducible from micromammal relative abundance data, given its reliance on empirically tested relationships between fauna, environment, and taphonomic agent (predator).
Journal
Archaeological and Anthropological Sciences – Springer Journals
Published: Feb 3, 2018