15,000 Years of vegetation change in the Bonneville basin: the Blue Lake pollen record

2009 ◽  
Vol 28 (3-4) ◽  
pp. 308-326 ◽  
Author(s):  
Lisbeth A. Louderback ◽  
David E. Rhode
Keyword(s):  
Vegetation Change ◽  
Pollen Record ◽  
Blue Lake ◽  
Bonneville Basin

scholarly journals A Holocene pollen record of savanna establishment in coastal Amapá

2008 ◽  
Vol 80 (2) ◽  
pp. 341-351 ◽  
Author(s):  
Mauro B. de Toledo ◽  
Mark B. Bush
Keyword(s):  
Vegetation Change ◽  
Human Impacts ◽  
Detrended Correspondence Analysis ◽  
Fire Frequency ◽  
Pollen Record ◽  
Human Occupation ◽  
Sample Distribution ◽  
River Flooding ◽  
History Of ◽  
Tremendous Impact

The main goal of this study was to investigate how climate and human activities may have influenced ecotonal areas of disjoint savannas within Brazilian Amazonia. The fossil pollen and charcoal records of Lake Márcio (Amapá) were used to provide a Holocene palaeoecological history of this region. Detrended correspondence analysis (DCA) was used to enhance the patterns of sample distribution along the sediment core. A marked vegetation change from closed forests with swamp elements to open flooded savanna at c. 5000 yrs BP was evident from the pollen record. Charcoal analysis revealed a pattern of increased accumulation of particles coincident with the establishment of savannas, suggesting higher fire frequency and human impacts near the lake. A 550-year sedimentary hiatus suggests that the lake depended heavily on floodwaters from the Amazon River, and that it became suddenly isolated from it. When sedimentation restarted in the lake, the environment had changed. A combination of factors, such as reduced river flooding, palaeofires and human occupation may have had a tremendous impact on the environment. As there are no other major changes in vegetation, after 4700 yrs BP, it is plausible to assume that the modern mosaic vegetation formed at that time.

A 23,000-yr Pollen Record from Lake Euramoo, Wet Tropics of NE Queensland, Australia

2005 ◽  
Vol 64 (3) ◽  
pp. 343-356 ◽  
Author(s):  
Simon G. Haberle
Keyword(s):  
New Record ◽  
Vegetation Change ◽  
Fire History ◽  
World Heritage ◽  
Pollen Record ◽  
Orbital Forcing ◽  
Wet Tropics ◽  
The Relationship ◽  
Warm Temperate ◽  
Significant Factors

AbstractA new extended pollen and charcoal record is presented from Lake Euramoo, Wet Tropics World Heritage rainforest of northeast Queensland, Australia. The 8.4-m sediment core taken from the center of Lake Euramoo incorporates a complete record of vegetation change and fire history spanning the period from 23,000 cal yr B.P. to present. The pollen record is divided into five significant zones; 23,000–16,800 cal yr B.P., dry sclerophyll woodland; 16,800–8600 cal yr B.P., wet sclerophyll woodland with marginal rainforest in protected pockets; 8600–5000 cal yr B.P., warm temperate rainforest; 5000–70 cal yr B.P., dry subtropical rainforest; 70 cal yr B.P.–AD 1999, degraded dry subtropical rainforest with increasing influence of invasive species and fire.The process of rainforest development appears to be at least partly controlled by orbital forcing (precession), though more local environmental variables and human activity are also significant factors. This new record provides the opportunity to explore the relationship between fire, drought and rainforest dynamics in a significant World Heritage rainforest region.

A 180,000-year pollen record from Owens Lake, CA: terrestrial vegetation change on orbital scales

2003 ◽  
Vol 59 (3) ◽  
pp. 430-444 ◽  
Author(s):  
Wallace B. Woolfenden
Keyword(s):  
Sierra Nevada ◽  
Vegetation Change ◽  
Vegetation History ◽  
Pollen Record ◽  
Terrestrial Vegetation ◽  
Subalpine Forests ◽  
Owens Lake ◽  
Ice Cap ◽  
Juniper Woodland ◽  
Warm Desert

AbstractPollen from the upper 90 m of core OL-92 from Owens Lake is a climatically sensitive record of vegetation change that indicates shifts in the plant associations representing warm and cold desertscrub, pinyon–juniper woodland, and pine–fir forest during the past 180,000 years. These changes are synchronized with glacial–interglacial cycles. During glacial and stadial climates, juniper woodland expanded downslope and replaced warm desert shrubs while upper montane and subalpine forests in the arid Inyo Mountains also expanded, and those in the Sierra Nevada were displaced by the ice cap and periglacial conditions. Conversely, during interglacial and interstadial climates, warm desert plants expanded their range in the lowlands, juniper and sagebrush retreated upslope, and montane and subalpine forests expanded in the Sierra Nevada. The reconstructed vegetation history demonstrates a regional climatic response, and the congruence of the pollen sequence with marine and ice cap oxygen isotope stratigraphies suggests a link between regional vegetation and global climate change at orbital scales.

A Holocene pollen record of vegetation change and human impact from Pantano de Vargas, an intra-Andean basin of Duitama, Colombia

2007 ◽  
Vol 145 (1-2) ◽  
pp. 143-157 ◽  
Author(s):  
Andrea Gómez ◽  
Juan Carlos Berrío ◽  
Henry Hooghiemstra ◽  
Miguel Becerra ◽  
Rob Marchant
Keyword(s):  
Human Impact ◽  
Vegetation Change ◽  
Pollen Record

A 10,300 14C yr Record of Climate and Vegetation Change from Haiti

1999 ◽  
Vol 52 (2) ◽  
pp. 159-170 ◽  
Author(s):  
Antonia Higuera-Gundy ◽  
Mark Brenner ◽  
David A. Hodell ◽  
Jason H. Curtis ◽  
Barbara W. Leyden ◽  
...  
Keyword(s):  
Vegetation Change ◽  
Human Impacts ◽  
Regional Climate ◽  
Regional Climate Change ◽  
Early Holocene ◽  
Pollen Record ◽  
Caribbean Islands ◽  
Moist Forest ◽  
Dry Conditions ◽  
American Tropics

Pleistocene and Holocene vegetation dynamics in the American tropics are inferred largely from pollen in continental lake sediments. Maritime influences may have moderated climate and vegetation changes on Caribbean islands. Stable isotope (δ18O) study of a 7.6-m core from Lake Miragoane, Haiti, provided a high-resolution record of changing evaporation/precipitation (E/P) since ∼10,300 14C yr B.P. The Miragoane pollen record documents climate influences and human impacts on vegetation in Hispaniola. The δ18O and pollen data near the base of the core indicate cool, dry conditions before ∼10,000 14C yr B.P. Lake Miragoane filled with water in the early Holocene as E/P declined and the freshwater aquifer rose. Despite increasing early Holocene moisture, shrubby, xeric vegetation persisted. Forest expanded ∼7000 14C yr B.P. in response to greater effective moisture and warming. The middle Holocene (∼7000–3200 14C yr B.P.) was characterized by high lake levels and greatest relative abundance of pollen from moist forest taxa. Climatic drying that began ∼3200 14C yr B.P. may have driven some mesophilic animal species to extinction. The pollen record of the last millennium reflects pre-Columbian (Taino) and European deforestation. Long-term, Holocene vegetation trends in southern Haiti are comparable to trends from continental, lowland circum-Caribbean sites, suggesting a common response to regional climate change.

15,000-yr Pollen Record of Vegetation change in the High Altitude Tropical Andes at Laguna Verde Alta, Venezuela

2005 ◽  
Vol 64 (3) ◽  
pp. 308-317 ◽  
Author(s):  
Valentí Rull ◽  
Mark B. Abbott ◽  
Pratigya J. Polissar ◽  
Alexander P. Wolfe ◽  
Maximiliano Bezada ◽  
...  
Keyword(s):  
High Altitude ◽  
Vegetation Change ◽  
Late Glacial ◽  
Causal Link ◽  
Pollen Record ◽  
Tropical Andes ◽  
Holocene Thermal Maximum ◽  
Lower Elevation ◽  
Dramatic Decline ◽  
Laguna Verde

AbstractPollen analysis of sediments from a high-altitude (4215 m), Neotropical (9°N) Andean lake was conducted in order to reconstruct local and regional vegetation dynamics since deglaciation. Although deglaciation commenced ∼15,500 cal yr B.P., the area around the Laguna Verde Alta (LVA) remained a periglacial desert, practically unvegetated, until about 11,000 cal yr B.P. At this time, a lycopod assemblage bearing no modern analog colonized the superpáramo. Although this community persisted until ∼6000 cal yr B.P., it began to decline somewhat earlier, in synchrony with cooling following the Holocene thermal maximum of the Northern Hemisphere. At this time, the pioneer assemblage was replaced by a low-diversity superpáramo community that became established ∼9000 cal yr B.P. This replacement coincides with regional declines in temperature and/or available moisture. Modern, more diverse superpáramo assemblages were not established until ∼4600 cal yr B.P., and were accompanied by a dramatic decline in Alnus, probably the result of factors associated with climate, humans, or both. Pollen influx from upper Andean forests is remarkably higher than expected during the Late Glacial and early to middle Holocene, especially between 14,000 and 12,600 cal yr B.P., when unparalleled high values are recorded. We propose that intensification of upslope orographic winds transported lower elevation forest pollen to the superpáramo, causing the apparent increase in tree pollen at high altitude. The association between increased forest pollen and summer insolation at this time suggests a causal link; however, further work is needed to clarify this relationship.

scholarly journals The Medicine Tree: Unsettling palaeoecological perceptions of past environments and human activity

2017 ◽  
Vol 17 (3) ◽  
pp. 239-262 ◽  
Author(s):  
Suzi Richer ◽  
Benjamin Gearey
Keyword(s):  
Human Activity ◽  
Vegetation Change ◽  
Local Context ◽  
Ecological Knowledge ◽  
Pollen Record ◽  
Scientific Methods ◽  
Ecological Principles ◽  
Patterns And Processes

In this paper, we consider palaeoecological approaches to past landscapes and reflect upon how these are relevant to archaeological themes concerning concepts of environmental change and the role of past and present human communities in these processes. In particular, we highlight the importance of local context in the perception and understanding of landscape. Utilising a case study from Nepal, we look to ‘unsettle’ a conventional palaeoecological interpretation of a pollen record, originally constructed on western ecological principles, and instead draw on an interpretative perspective rooted in local Buddhist ecological knowledge, or a ‘folk taxonomy’, known as ‘The Medicine Tree’. We discuss how the interpretations of patterns and processes of vegetation change from a pollen record are not necessarily absolute. In particular, we outline how the palaeoecological frame of enquiry and reference is rooted in an essentially Eurocentric, Western scientific paradigm, which, in turn, shapes how we perceive and conceive of past landscapes and the role of ‘anthropogenic impact’ on vegetation. The aim of this is not to suggest that scientific approaches to the ‘reconstruction’ of past landscapes are necessarily invalid, but to illustrate how ‘empirical’ scientific methods and interpretations in archaeological science are contingent upon specific social and cultural frames of reference. We discuss the broader relevance of this, such as how we interpret past human activity and perception of landscape change, the ways in which we might look to mobilise research in the context of contemporary problems, issues concerning ‘degraded landscapes’ and how we incorporate local and archaeological perspectives with palaeoecology within an interconnected and iterative process.

scholarly journals Thresholds of potential concern as benchmarks in the management of African savannahs

2007 ◽  
Vol 362 (1478) ◽  
pp. 309-319 ◽  
Author(s):  
L Gillson ◽  
K.I Duffin
Keyword(s):  
Vegetation Cover ◽  
Vegetation Change ◽  
Quadratic Equation ◽  
Woody Vegetation ◽  
Fossil Pollen ◽  
Pollen Record ◽  
Pollen Data ◽  
Modern Pollen ◽  
Management Objectives ◽  
Arboreal Pollen

In the Kruger National Park (KNP), South Africa, ecosystem managers use a series of monitoring endpoints, known as thresholds of potential concern (TPCs), to define the upper and the lower levels of accepted variation in ecosystems. For woody vegetation, the current TPC suggests that woody cover should not drop by more than 80% of its ‘highest ever’ value. In this paper, we explore the utility of palaeoecological data in informing TPCs. We use calibrated fossil pollen data to explore variability in vegetation at two sites over the past 5000 years, to provide a long-term record of changes in woody vegetation cover and a context for interpreting more recent vegetation change. The fossil pollen data are calibrated using studies of modern pollen and vegetation from KNP; arboreal pollen percentage was simulated using pollen–landscape modelling software for savannah landscapes of varying woody vegetation cover, and the relationship between vegetation and pollen data was quantified using nonlinear regression. This quadratic equation was then applied to fossil pollen data in order to estimate woody vegetation cover from arboreal pollen percentages. Our results suggest that the TPCs have not been exceeded during the period represented in the pollen record, because estimated woody vegetation cover has remained above 20% of its highest ever value. By comparing the fossil pollen data with TPCs, our study demonstrates how palaeoecological data can be presented in a form that is directly relevant to management objectives.

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