Abstract
Mediterranean landscapes have been shaped by complex interactions between climate, land use and fire over
multi-millennial timescales. Understanding past trajectories of change provides knowledge of how modern
landscapes emerged, which can be valuable for their sustainable management. The aim of this study is to
reconstruct environmental change in Western Anatolia (Turkey) through palaeoecological analysis of sediment
from Buldan Yayla Lake (Denizli-Buldan) from the Last Glacial Maximum (LGM) to the present, using a high-resolution
and multi-proxy dataset. To this end, fossil pollen, micro-charcoal, non-pollen palynomorphs, micro
(μ)-XRF and radiocarbon analyses were applied to an ~18 m sediment core from Buldan Yayla Lake (Denizli-
Buldan). According to the fossil pollen record, forest presence was low during the LGM (21000-18000 cal. BP),
with the lowest value recorded at 5 % during this period due to cold and dry climatic condition. Forest presence
began to increase with the transition to the Post-LGM period. Rapid forest development and high forest presence
were observed in the lake record from the transition to the LGM until the late Holocene. Forest development in
Western Anatolia occurred approximately 4,000 years earlier than in Europe according to the age-depth model
developed for this record, though if a hiatus exists, this could reflect a shift of at least 1,300 years. High forest
abundance during the late Glacial period was interrupted during the Younger Dryas (YD) and during the dry
climatic periods of 9250–8900 and 7700 cal. BP. The late Holocene period was characterized by intensive land
use, specifically olive cultivation, which reached its highest level in the Roman Imperial Period (during the
ancient city of Tripolis era), and the highest olive percentage recorded in Anatolia (38.4 %) was reached. Forests
were generally dominated by oaks, with pine forests replacing oak forests in the last 1350 (cal. BP) years. Microcharcoal
and non-pollen palynomorph data were low in concentration between the LGM and Holocene and began
to increase with the Holocene transition reaching their highest values during the late Holocene. This study
provides a reconstruction of long-term environmental change in Western Anatolia and reveals a significant
relationship between climate variability and shifts in vegetation patterns, particularly highlighting the increasing
frequency of fires and changes in land use during certain periods. This finding serves as an important example for
understanding the relationships between climate, vegetation, fire, and land use in the Mediterranean Basin.
multi-millennial timescales. Understanding past trajectories of change provides knowledge of how modern
landscapes emerged, which can be valuable for their sustainable management. The aim of this study is to
reconstruct environmental change in Western Anatolia (Turkey) through palaeoecological analysis of sediment
from Buldan Yayla Lake (Denizli-Buldan) from the Last Glacial Maximum (LGM) to the present, using a high-resolution
and multi-proxy dataset. To this end, fossil pollen, micro-charcoal, non-pollen palynomorphs, micro
(μ)-XRF and radiocarbon analyses were applied to an ~18 m sediment core from Buldan Yayla Lake (Denizli-
Buldan). According to the fossil pollen record, forest presence was low during the LGM (21000-18000 cal. BP),
with the lowest value recorded at 5 % during this period due to cold and dry climatic condition. Forest presence
began to increase with the transition to the Post-LGM period. Rapid forest development and high forest presence
were observed in the lake record from the transition to the LGM until the late Holocene. Forest development in
Western Anatolia occurred approximately 4,000 years earlier than in Europe according to the age-depth model
developed for this record, though if a hiatus exists, this could reflect a shift of at least 1,300 years. High forest
abundance during the late Glacial period was interrupted during the Younger Dryas (YD) and during the dry
climatic periods of 9250–8900 and 7700 cal. BP. The late Holocene period was characterized by intensive land
use, specifically olive cultivation, which reached its highest level in the Roman Imperial Period (during the
ancient city of Tripolis era), and the highest olive percentage recorded in Anatolia (38.4 %) was reached. Forests
were generally dominated by oaks, with pine forests replacing oak forests in the last 1350 (cal. BP) years. Microcharcoal
and non-pollen palynomorph data were low in concentration between the LGM and Holocene and began
to increase with the Holocene transition reaching their highest values during the late Holocene. This study
provides a reconstruction of long-term environmental change in Western Anatolia and reveals a significant
relationship between climate variability and shifts in vegetation patterns, particularly highlighting the increasing
frequency of fires and changes in land use during certain periods. This finding serves as an important example for
understanding the relationships between climate, vegetation, fire, and land use in the Mediterranean Basin.
| Original language | English |
|---|---|
| Article number | 109296 |
| Journal | Quaternary Science Reviews |
| Volume | 356 |
| Early online date | 19 Mar 2025 |
| DOIs | |
| Publication status | E-pub ahead of print - 19 Mar 2025 |
ASJC Scopus subject areas
- Global and Planetary Change
- Ecology, Evolution, Behavior and Systematics
- Archeology (arts and humanities)
- Archeology
- Geology
Keywords
- Forest dynamics
- Land use
- Micro-charcoal
- Multi-proxy data
- Olive cultivation
- Past vegetation
- Western Anatolia
