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93 results on '"Phytolith"'

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1. Dung detective! A multi-scalar, multi-method approach to identification and analysis of ancient faecal material.

2. Late Neolithic to Bronze Age water management and upland rice cultivation in the mountainous areas of Southeastern China Coast.

4. Phytolith based paleoecological reconstruction from a loess-paleosol sequence in the Kashmir Himalaya, India.

5. Vegetation landscape and paleoenvironment evolution recorded at the late Neolithic Zhumucun site, East China.

6. Assessment and correction of representational bias in phytoliths from modern soil in the Dongting Lake Basin, China.

7. Surface soil phytolith assemblages across an altitudinal transect in the Qilian Mountains of Northwestern China, and their implications for palaeoecologic analysis in arid alpine regions.

8. Middle-Late Holocene climate change in an East Asian sandy land: Perspectives from the phytolith record of different geomorphic units.

9. Aggregation reduces the release of bioavailable silicon from allophane and phytolith.

10. Intensification of rice farming and its environmental consequences recorded in a Liangzhu reservoir, China.

11. Phytolith transport and its influence factor in different soil types in northern temperate region.

12. Charred wood and plant microremains associated to Neosclerocalyptus sp. (Cingulata, Chlamyphoriidae, Glyptodontinae) from the Upper Pleistocene of Western Chaco, Argentina.

13. Long-term response of respective grass types to variations in fire frequency in central Japan, inferred from phytolith and macrocharcoal records in cumulative soils deposited during the Holocene.

14. Phytoliths as proxies of the past.

15. Encapsulation of lead in rice phytoliths as a possible pollutant source in paddy soils.

16. Terrestrial plant microfossils in palaeoenvironmental studies, pollen, microcharcoal and phytolith. Towards a comprehensive understanding of vegetation, fire and climate changes over the past one million years.

17. Silicon content is a plant functional trait: implications in a changing world.

18. Multiproxy studies on dung of endangered Sangai (Rucervus eldii eldii) and Hog deer (Axis porcinus) from Manipur, India: Implications for paleoherbivory and paleoecology.

19. Phytolith-reconstructed Holocene vegetation dynamics from a subalpine peat deposit in the mid-subtropical zone of China.

20. Environmental changes and human activity since the Neolithic: Evidence from pollen and phytoliths in Hochung, Sai Kung area, Hong Kong.

21. Silicon regulation of soil organic carbon stabilization and its potential to mitigate climate change.

22. Silicophytoliths from a Pampean native tree community (Celtis ehrenbergiana community) and their representation in the soil assemblage.

23. Phytolith characteristics and preservation in trees from coniferous and broad-leaved mixed forest in an eastern mountainous area of Northeast China.

24. Effect of KOH-enhanced biochar on increasing soil plant-available silicon.

25. Silicon cycling by plant and its effects on soil Si translocation in a typical subtropical area.

26. Changes in land use are associated with the accumulation of soil phytolith-occluded organic carbon.

27. Pollen and phytolith paleoecology in the St. Louis River Estuary, Minnesota, USA, with special consideration of Zizania palustris L.

28. Monthly variations of phytoliths in the leaves of the bamboo Dendrocalamus ronganensis (Poaceae: Bambusoideae).

29. Late Holocene palaeoenvironmental reconstruction from Mpumalanga Province (South Africa) inferred from geochemical and biogenic proxies.

30. Characterization and dissolution properties of phytolith occluded phosphorus in rice straw.

31. Past tree cover of the Congo Basin recovered by phytoliths and δ13C along soil profiles.

32. Phytolith signature on the Araucarias Plateau – Vegetation change evidence in Late Quaternary (South Brasil).

33. Phytolith evidence for changes in the vegetation diversity and cover of a grassland ecosystem in Northeast China since the mid-Holocene.

34. Characteristics of silicon and phytolith distribution in bamboo (Ferrocalamus strictus): variations between different organs and ages.

35. Phytoliths as indicators of plant water availability: The case of millets cultivation in the Indus Valley civilization.

36. Phytolith evidence suggests early domesticated rice since 5600 cal a BP on Hainan Island of South China.

37. Phytolith records of rice agriculture during the Middle Neolithic in the middle reaches of Huai River region, China.

38. Archaeobotanical analysis of diverse plant food resources and palaeovegetation at the Zhumucun site, a late Neolithic settlement of the Liangzhu Culture in east China.

39. PhytOC stock in forest litter in subtropical forests: Effects of parent material and forest type.

40. Assessing the importance of environmental factors to phytoliths of Phragmites communis in north-eastern China.

41. Occurrence, turnover and carbon sequestration potential of phytoliths in terrestrial ecosystems.

42. The effect of progressive dissolution on the oxygen and silicon isotope composition of opal-A phytoliths: Implications for palaeoenvironmental reconstruction.

43. Response of phytoliths in Phragmites australis to environmental factors in northeast China.

44. Application of acetolysis in phytoliths extraction.

45. Intraspecific biogenic silica variations in the grass species Pennisetum pedicellatum along an evapotranspiration gradient in South Niger.

46. The relationship between past vegetation type and fire frequency in western Japan inferred from phytolith and charcoal records in cumulative soils.

47. 90,000-year phytolith records from caldera rim to western foot of Aso Volcano, Japan: Implications for vegetation history since catastrophic eruption.

48. The shape factors of phytoliths in selected plants from the Changbai Mountains and their implications.

49. Fate of silica phytoliths in the industrial crushing of sugarcane stalks.

50. Enhancing phytolith carbon sequestration in rice ecosystems through basalt powder amendment.

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