They mature rapidly and provide the highest caloric meat yield of

They mature rapidly and provide the highest caloric meat yield of any of the available domesticates ( McClure et al., 2006). Since pigs are omnivorous

they can convert refuse and spoilage into a nutrient rich food source. On the other hand, pigs cannot convert cellulose-rich grasses into proteins, have higher water requirements, and do not tolerate heat well ( Zeder, 1996 and Zeder, 1998). The relative importance of pigs as a domesticate in early farming communities varied tremendously throughout Europe. In parts of the western Mediterranean pigs comprise the second largest percentage of domestic faunal remains at Neolithic archeological sites after ovicaprids DAPT nmr (e.g., Valencia Spain; Bernabeu, 1995, Hadjikoumis, 2011, McClure et al., 2006 and Pérez, 2002). In contrast, Neolithic sites in the Balkans tend to have few pig remains (Table 2). In addition to net increases in species and genetic biodiversity through animal introductions and interbreeding, individuals or at times groups of domesticated animals have reverted to living in

a wild or semi-wild state with little or no human management. Feralization likely began occurring at the onset of species introductions and its effects go beyond biological components of the animals. Indeed, Zeder (2012, p. 237) points out that some of the biological changes of domestication are irreversible, particularly brain size and function. One example is the wild mouflon (Ovis orientalis musimon), feralized descendants of domestic sheep on Mediterranean islands EPZ6438 that retain the smaller brain size of their domestic ancestors despite looking like wild sheep ( Zeder, 2012; see also Groves, 1989 and Bruford and Townsend,

2006). In the case of feralization, the effects on biodiversity may well be best grasped as ecosystem biodiversity, where animals of a particular genetic makeup begin to inhabit new ecological niches independent of human control. In order to better grasp the implications of domesticated animals for ecosystem diversity, I turn to current paleoecological data for the region to assess the Rutecarpine degree of impact on a broader scale. The ecological impacts of introduced domesticates are difficult to discern for the earliest phases of the spread of agriculture. Modern analogies of domesticated grazers and browsers in new regions or studies of feral populations in island environments point to widespread and rapid decimation of vegetation coverage and resulting increases in erosion (e.g., Coblentz, 1978, Keegan et al., 1994 and Yocom, 1967). However, these examples tend to be large in scale, often dealing with situations where extensive numbers of animals are introduced, abandoned, or have escaped in contexts where predators are lacking and resource competition is depressed.

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