Fumier sequences play a primary role in the study of livestock management and the use of space in prehistoric pastoralist societies. These sequences are formed when dung accumulated in sheepfold... Show moreFumier sequences play a primary role in the study of livestock management and the use of space in prehistoric pastoralist societies. These sequences are formed when dung accumulated in sheepfold caves and rock shelters is burnt, resulting in an overlapping of burnt and unburnt sedimentary layers. Thus, fire is a key taphonomic agent in the formation and alteration of fumier sequences.The characteristics, functions, and management of burning events influence the preservation of the macro- and micro-remains potentially biasing the interpretation of the archeological record. Therefore, it is important to understand the taphonomic effects of fire in fumier sequences.In this chapter, we use a multi-scalar and interdisciplinary approach to the study of burning events at El Mirador cave. We analyzed the phytolith, fecal spherulites, pollen, non-pollen palynomorphs (NPP), and parasite remains in the fumier sequence, together with the mineral (FTIR) and magnetic properties of the sediments. In addition, we studied the effects of fire on the macrofaunal assemblages. The results obtained here provide the basis for a tapho-diagenetic framework that illustrates robustly the formation dynamics of the El Mirador fumier sequences. Show less
Five research methods were used in Taxonomy, Systematics, and Biogeography of Ficus subsection Urostigma(Moraceae); Morphological characters, leaf anatomy, pollen morphology, molecular phylogeny,... Show moreFive research methods were used in Taxonomy, Systematics, and Biogeography of Ficus subsection Urostigma(Moraceae); Morphological characters, leaf anatomy, pollen morphology, molecular phylogeny, and historical biogeography. Seven topics are the result: 1) A revision was made based on morphology in which 27 species are recognized, but which also showed that morphology alone cannot solve all problems because of variation within the species. 2) Leaf anatomy displayed less variation in characters and anatomical characters proved to be useful for the classification of Ficus, especially in combination with morphology. 3) Pollen morphology appeared to be similar for all species and the characters can merely be used for generic recognition. 4) A new classification for subsection Urostigma is proposed in which the circumscription of the subsection and the species is the result of combining molecular phylogenetic information with morphology and leaf anatomy. 5) Ficus cornelisiana, a new species from Sino-Himalayan, was reported based on morphological and leaf anatomical evidence. 6) The historical biogeography was studied by using molecular dating and ancestral area reconstruction. 7) The use of some Thai species within subsect. Urostigma is reported, six of them are used as food, as ornamental, or the uses are related to religion or sacred purposes. Show less
