Publications
Found 31 publication(s)
- of type article
Villota, A. & Behling, H. (2014): Late Glacial and Holocene environmental change inferred from the páramo of Cajanuma in the Podocarpus National Park, southern Ecuador. Caldasia 36, 345-364.
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Abstract:
Abstract:
To reconstruct the environmental history including vegetation, fire and climate dynamics, from the Cajanuma valley area (3285 m elevation) in the Podocarpus National Park, southern Ecuador, we address the following major research question: (1) How did the mountain vegetation developed during the late Glacial and Holocene? (2) Did fire played an important control on the vegetation change and was it natural or of anthropogenic origin?. Palaeoenvironmental changes were investigated using multiple proxies such as pollen, spores, charcoal analyses and radiocarbon dating. Pollen data indicated that during the late Glacial and transition to the early Holocene (ca. 16 000–10 500 cal yr BP) herb páramo was the main vegetation type around the study area, while subpáramo and mountain rainforest were scarcely represented. The early and mid-Holocene (ca. 10 500 to 5600 cal yr BP) is marked by high abundance of páramo during the early Holocene followed by a slight expansion of mountain forest during the mid-Holocene. During the mid- to late Holocene (ca. 5600–1200 cal yr BP) there is a significant presence of páramo and subpáramo while Lower Mountain Forest decreased substantially, although, Upper Mountain Forest remained relatively stable during this period. The late Holocene, from ca. 1200 cal yr BP to present, was characterized by páramo; however, mountain forest and subpáramo presented significantly abundance compared to the previous periods. Fires became frequent since the late Holocene. The marked increased local and regional fire intensity during the wetter late Holocene strongly suggests that were of anthropogenic origin. During the late Glacial and early Holocene, the upper forest line was located at low elevations; but shifted slightly upslope to higher elevations during the mid-Holocene.
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Keywords: |
palynology |
human disturbance |
Palaeoecology |
vegetation history |
Villota, A. & Behling, H. (2013): Late Quaternary vegetation, climate and fire dynamics, human impact and evidence of past Polylepis populations in the northern Andean Depression inferred from the El Cristal record, in southeastern Ec. Ecotropica 19, 49-68.
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Abstract:
Abstract:
Late Pleistocene and Holocene vegetation, climate, and fire dynamics, as well as human impact, were studied in the El Cristal region, which is part of the Andean Depression in southeastern Ecuador. The sediment core from a small basin at 2056 m a.s.l. was analyzed by pollen and charcoal analysis and dated by six radiocarbon dates. The record indicates that during the late Pleistocene (ca. 19 750–12 500 cal yr BP) the Upper Mountain Rainforest (UMF), with some smaller areas of páramo and subpáramo were the main vegetation type in the study area. Additionally, there is evidence for Polylepis woodland in the region during this period, which does not exist in the area today. During the transition from the late Pleistocene to the early and mid-Holocene between ca. 12 500 to 3600 cal yr BP, there is a significant presence of mountain rainforest and stable proportions of subpáramo and páramo taxa. The early Holocene from ca. 11 500 to 7800 cal yr BP is characterized by UMF vegetation at the study site. Polylepis became more frequent and reached its maximum. During the mid-Holocene between 7800 to 3600 cal yr BP, the composition of the UMF changed. Polylepis decreased after ca. 4000 cal yr BP, probably due to higher fire frequency. During the mid- to late Holocene, human landscape dis- turbance is evident, especially between ca. 2000 and 1380 cal yr BP, with Asteraceae, Muehlenbeckia/Rumex, Osmunda and Huperzia all increasing in abundance. The late Holocene, from ca. 1380 cal yr BP, was characterized by an increased abundance of páramo taxa and a decrease in mountain rainforest taxa. The expansion of grassland during the late Holocene is interpreted as a result of an increase in human activity, which limited forest vegetation to isolated patches. However, between ca. 1200 and 900 cal yr BP the UMF expanded, probably due to forest recovery after the high frequency of fire. Between ca. 90
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Keywords: |
palynology |
Palaeoecology |
Polylepis |
vegetation history |
Niemann, H.; Matthias, I.; Michalzik, B. & Behling, H. (2015): Late Holocene human impact and environmental change inferred from a multi-proxy lake sediment record in the Loja region, southeastern Ecuador. Quaternary Internation 308-309(308), 253.
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Abstract:
Abstract:
Late Holocene human impact and environmental changes were reconstructed from a sediment core of the Laguna Daniel Alvarez (2200 m asl) located on the outskirts of the city of Loja, southeastern Ecuador. Palaeoenvironmental changes were investigated by pollen, spore, algae and charcoal analysis in com- bination with X-Ray Fluorescence (XRF) scanning and element analysis of d13C, Total Organic Carbon (TOC), Total Nitrogen (TN) and radiocarbon dating. This multi-proxy study provides in detail the set- tlement history in the inner-Andean dry valley in southern Ecuador over the last ca. 1400 years.
Between 630 and 1470 AD, Zea mays was intensively cultivated around the studied lake by the native Palta culture in the Loja region. After ca. 1470 AD, Z. mays cultivation collapsed, accompanied by an increase in fallow vegetation, such as Mimosa and Poaceae, probably as a result of the Inca invasion and occupation from 1463 to 1531 AD in southern Ecuador. After ca. 1570 AD, Amaranthaceae/Chenopo- diaceae markedly increased, re?ecting the beginning of the Spanish Conquest. In 1531 AD, Loja became Spanish and, during the ?rst ca. 100 years of the Spanish regime, Loja developed into the forti?ed capital of the province. In the 17th century, crop growing strongly declined due to the diminished indigenous population that probably suffered from new diseases introduced by the Spanish invaders. Pinus and Eucalyptus as well as Plantago lanceolata were introduced in the Loja region about 220 years ago.
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Keywords: |
palynology |
human disturbance |
Palaeoecology |
vegetation history |
Jantz, N.; Homeier, J. & Behling, H. (2014): Representativeness of tree diversity in the modern pollen rain of Andean montane forests. Journal of Vegetation Science 25(2), 481-490.
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DOI: 10.1111/jvs.12105
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Abstract:
Abstract:
Questions: To assess the relationship between modern pollen rain and Andean
montane forest vegetation for diversity, and provide a basis for interpretations of
palaeoecological data in the northern Andes, we asked: (1) can the reduction of
plant and pollen data to family level preserve information about diversity in both
data sets; (2) how precisely do tree pollen and spore types represent richness patterns
along an altitudinal gradient on tropical mountains; and (3) how similar
are tree pollen and spore family richness in relationship to tree family richness?
Location: Tropicalmontane rain forests, Podocarpus National Park in the Andes
of South Ecuador (3°S, 79°W, 1000–3000 ma.s.l.).
Methods:We analysed tree diversity and species composition in three different
rain forest types: Premontane (PMF), lowermontane (LMF) and uppermontane
(UMF).We investigated modern pollen rain using pollen traps. After testing the
reliability of a taxonomic surrogacy on the plant data, we compared abundance
and representation, as well as diversity of the two data sets at family level. This
was done using rarefaction and Sørensen indices.
Results: The correlation between tree species and families was high (r = 0.81,
P < 0.001). Sample rarefaction on tree pollen and plant family data revealed
highest pollen diversity on sites of the UMF, but highest tree diversity on LMF
and PMF sites. The Sørensen indices indicate down-drift of pollen from higher
altitudes in PMF and LMF and up-drift in UMF. Between 1% and 50% of pollen
taxa of each sample originate fromoutside the plot.
Conclusions: Taxonomic surrogacy at family level is a good tool for comparing
presence–absence patterns of plant and pollen data in tropical regions with high
tree diversity. On a family basis, pollen presence–absence data represent the corresponding
tree vegetation data, but uncertainties increase with decreasing altitude.
The higher diversity in pollen data of the UMF, but slightly lower diversity
in the LMF and PMF, can at least partly be explained by wind patterns, local
abundance of shrubs and herbs and differences in evenness.
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Keywords: |
MATRIX |
Jantz, N.; Homeier, J.; León Yánez, S.; Moscoso, A. & Behling, H. (2013): Trapping pollen in the tropics — Comparing modern pollen rain spectra of different pollen traps and surface samples across Andean vegetation zones. Review of Palaeobotany and Palynology 193, 57-69.
Villota, A.; León Yánez, S. & Behling, H. (2012): Vegetation and environmental dynamics in the Páramo of Jimbura region in the southeastern Ecuadorian Andes during the late Quaternary. Journal of South American Earth Sciences 40, 85-93.
Behling, H. & Schüler, L. (2010): Characteristics of Poaceae pollen grains as a tool to assess palaeoecological grassland dynamics in South America. Vegetation History and Archaeobotany 20, 97-108.
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DOI: 10.1007/s00334-010-0264-0
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Abstract:
Abstract:
During the Quaternary, in particular during
glacial times, different grassland ecosystems played a
much larger role and had a significantly larger distribution.
Little is known yet about past development, biodiversity
and dynamics of grassland ecosystems. In this innovative
study, we attempt to distinguish between different South
American grassland types in space and time based on
morphological pollen grain characteristics of Poaceae. For
this purpose[60?80 Poaceae pollen grains of 20 grassland
samples were measured using their length, width and pore
diameter as well as annulus width. Samples were taken
from five sites in wet Pa´ramo vegetation from the Late
Pleistocene to the Late Holocene in South Ecuador and
from two sites in the south-eastern Brazilian highlands
(Campos do Altitude) of the same period. Additionally, we
investigated two samples from a Pampa site as well as six
samples from one Campos grassland site in southern Brazil
from the Late Pleistocene to the Late Holocene. Subsets of
samples of the Campos grasslands and of the Pa´ramo were
investigated in order to retrieve more detailed information
on patterns within these vegetation types. Multivariate data
analysis of the complete data set shows changes in taxonomic
composition along an elevational gradient in the
Pa´ramo grasslands. Our results reveal a highly dynamic
development of the individual grassland types; they also
provide interesting information on Poaceae taxa composition
patterns, development and possibly changes in
biodiversity within these ecosystems. Moreover, our data
provide an indication about the origin and dynamics of the
Campos ecosystems in the southern Brazilian highlands
during the Late Pleistocene and the Holocene before and
after the onset of human activities.
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Keywords: |
biodiversity |
grassland |
South America |
Poaceae |
pollen grain morphology |
grain size |
Pampa |
Schüler, L. & Behling, H. (2010): Poaceae pollen grain size as a tool to distinguish past grasslands in South America - a new methodological approach. Vegetation History and Archaeobotany 20, 83-96.
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DOI: 10.1007/s00334-010-0265-z
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Abstract:
Abstract:
Despite the dominance of grasslands during the
last glacial period, especially in South America, the highly
uniform morphology of Poaceae pollen grains has so far
allowed only very few palynological studies based on
Poaceae pollen. In our study we compare two methods of
distinguishing between South American grassland ecosystems
based on quantitative morphology of Poaceae pollen
grains. We investigated data sets from Pa´ramo in southern
Ecuador, Campos de Altitude and Campos in south-eastern
and southern Brazil as well as data sets from the Pampa in
Argentina by measuring the pollen grain length, grain
width, pore diameter and annulus width. Firstly we investigated
the potential influence of chemical treatment of
pollen grains on pollen grain size as well as the measurement
setting for defining the boundary conditions for using
Poaceae pollen grains in a palaeoecological investigation.
Finally the measured pollen grain parameters were analyzed
by comparison of average grain length using
statistical tests. This approach reveals highly significant
differences in average grain size between all grassland
ecosystems. Assuming that a certain grain size range can
be assigned to a certain Poaceae taxon, conclusions about
differences and similarities in taxa composition can be
derived. We used two methods of multivariate data analysis.
One uses the pollen grain parameters directly for a
Principle Component Analysis (PCA). The other is an
already established method in grassland ecology which
defines parameter based pollen grain types to investigate
similarities between grassland ecosystems. Both approaches
confirm the results of the grain length analysis. In this
work we demonstrate that the method we developed has the
potential to provide acquisition of so far inaccessible
information on spatial and temporal patterns and dynamics
of South American grasslands.
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Keywords: |
palynology |
grassland |
South America |
Poaceae |
Pampa |
Paramo |
Rodriguez, F. & Behling, H. (2012): Late Quaternary vegetation, climate and fire dynamics, and evidence of early to mid-Holocene Polylepis forests in the Jimbura region of the southernmost Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 350-352, 247-257.
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DOI: 10.1016/j.palaeo.2012.07.004
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Abstract:
Abstract:
The vegetation,climate and fire history of high mountain ecosystemsin the southern Ecuadorian Andes are
documented in a continuous pollen and charcoal record,from Lagunas Natosas Forest bog,at 3495 m a.s.l. spanning the late Pleistocene and Holocene periods since 15,930 cal yr BP.The chronology of this record is
based on four radiocarbon dates.Páramo vegetation with abundant Poaceae and Plantago rigida characterized
the Late Glacial(LG)period, implying cold and wet conditions. Slight expansions of mountain forests suggest
warming during the LG. The upper foresl line was lower than today and fire events were rare during the
Pleistocene. During the early and mid-Holocene until 4300 cal yr BP, the area of páramo was markedly smaller and the subpáramo with woody vegetation (Melastomataceae) was larger. The upper mountain forest dominated and the upper forest line shifted to higher elevations. The pollen record provides the first evidence
of the development of Polylepis forests in the southern part of the so-called Andean Depression reflecting
warmer and drier climatic conditions during early and mid-Holocene. The late Holocene after about
4300 cal yr BP is characterized by larger areas of páramo and subpáramo promoted by moister conditions.
These moister conditions and frequent fires may have been the cause of the very rare occurrence or even extinction of Polylepis populations in the Jimbura region. Since ca. 1000 cal yr BP human occupation has altered
the landscape by frequent burning, woodcutting, grazing and cultivation.
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Keywords: |
Ecuador |
palynology |
Holocene |
Andes |
mountain forest |
Polylepis |
fire history |
forest line |
Late Glacial |
Zamora |
Jantz, N. & Behling, H. (2011): A Holocene environmental record reflecting vegetation, climate, and fire variability at the Páramo of Quimsacocha, southwestern Ecuadorian Andes. Vegetation History and Archaeobotany 21, 169-185.
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DOI: 10.1007/s00334-011-0327-x
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Abstract:
Abstract:
We reconstructed the palaeoenvironmental conditions of the last ca. 8000 years in the Tres Lagunas region of the Quimsacocha volcanic basin (ca. 3800 m a.s.l.) in the southwestern Ecuadorian Andes. By means of a pollen and charcoal record, we analysed vegetation, fire, and climate history of this area, which is sensitive to climatic changes of both the Pacific as well as of the eastern Andes and Amazon region. Sediment deposits, pronounced increase of pollen and charcoal concentrations, and pollen taxa reflect warmer and drier conditions in the early to mid-Holocene (~8000 to 3900 cal B.P.). During the late Holocene (2250 to -57 cal B.P.), 5 warm and cold-phases occurred at Quimsacocha. The most prominent cold phase possibly corresponds to the globally recognized Little Ice-Age (LIA; ~600 to 100 cal B.P.). The cold phase signal at Quimsacocha was characterized by a higher abundance of Poaceae, Isoëtes and Gentianella, which favour cold and moist conditions. Frequent charcoal particles can be recorded since the early to mid-Holocene (~7600 B.P.). The high Andean tree species Polylepis underwent several phases of degradation and re-establishment in the basin, which can indicate the use of fire by pre-Columbian settlers to enhance the growth of preferred herb species. The Tres Lagunas record suggests that human populations have been influencing the environment around Quimsacocha since the last ca. 8,000 years.
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Keywords: |
Ecuador |
Holocene |
Paramo |
Palaeoecology |
climate change |
Andes |
Rodriguez, F. & Behling, H. (2010): Late Holocene vegetation, fire, climate and upper forest line dynamics in the Podocarpus National Park, southeastern Ecuador. Vegetation History and Archeobotany --, 14 p..
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DOI: 10.1007/s00334-010-0252-4
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Abstract:
Abstract:
Late Holocene vegetation, fire, climate and upper forest line dynamics were studied based on detailed pollen and charcoal analyses. Two sediment cores, from the Rabadilla de Vaca mire (RVM) and the Valle Pequen˜o bog (VP), with an age of about 2100 and 1630 cal yrs B.P., respectively, were taken at the modern upper forest line in the Parque Nacional Podocarpus (Podocarpus National Park) in southeastern Ecuador. The two pollen records reflect relatively stable vegetation with slight changes in floral composition during the recorded period. Changes of the proportion between subpa´ramo and pa´ramo vegetation are related to lower and higher frequency of fires. The RVM records show that the upper forest line moved to a higher elevation between 1630 and 880 cal yrs B.P., stabilising after 310 cal yrs B.P. Human impact is suggested by a high fire frequency, mainly between 1800–1600 and 880– 310 cal yrs B.P. The VP records indicate no marked changes in the upper forest line. The charcoal records suggest an increased human impact from 230 cal yrs B.P. to the present. The results indicate that high fire frequency is an important factor in reducing the expansion of subpa´ramo vegetation and upper montane rainforest and in favouring the distribution of grass pa´ramo. Since there is a clear correlation between fire and vegetation dynamics, it is difficult to detect how far climate change also played a significant role in upper forest line changes during the late Holocene.
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Keywords: |
Ecuador |
palynology |
climate change |
fire history |
upper forest line |
late holocene |
Brunschön, C. & Behling, H. (2010): Reconstruction and visualization of upper forest line and vegetation changes in the Andean depression region of southeastern Ecuador since the last glacial maximum ? A multi-site synthesis. Review of Palaeobotany and Palynology -, 14 p..
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DOI: 10.1016/j.revpalbo.2010.10.005
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Abstract:
Abstract:
Based on 5 pollen records from locations between ca. 2700 and 3300 masl in the Podocarpus National Park (PNP) area (ca. 4° S and 79° W) within the Andean depression region in southern Ecuador, we reconstructed and visualized upper forest line (UFL) dynamics and past vegetation changes since the last glacial maximum (LGM). Estimates of altitudinal ranges of past UFL shifts in the study area allowed reconstructing past changes of forest and páramo expansion in the study region. During the LGM, the UFL position in the PNP area was at least ca. 700 m lower in the northernmost part and ca. 250 m further south compared to today. Glaciers covered the central PNP at this time, while deglaciation completed with the beginning of the Holocene. Throughout the recorded time UFL shifts and vegetation changes in the study area showed considerable local differences. This can be explained by locally differing vegetation compositions and climatic conditions, but especially during early to late Holocene times also by human disturbances. Only during the earliest Holocene and mid-Holocene the UFL in the central and southern PNP areas reached slightly higher elevations up to 200 m above the present position. The UFL in the PNP area shifted altitudinally over a shorter interval compared to other sites outside the depression. This difference may be caused by the study regions relatively low mountain elevations, wet climatic conditions, different and diverse vegetation pattern as well as by the corresponding vegetation response to climatic changes. The high complexity and heterogeneity of Andean habitats are assumed to be responsible for the variety in altitudinal distribution and compositional changes of vegetation. In the PNP area and the Andean depression region temperature seems to be less important for the UFL and vegetation changes than in other regions of the northern Andes. Instead we assume that other drivers, e.g. precipitation and wind, may be much more important for the developments in our study region.
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Keywords: |
Ecuador |
Paramo |
upper forest line |
late quaternary |
mountain rainforest |
andean depression |
Niemann, H.; Brunschön, C. & Behling, H. (2010): Vegetation/modern pollen rain relationship along an altitudinal transect between 1920 and 3185 m a.s.l. in the Podocarpus National Park region, southeastern Ecuadorian Andes. Review of Palaeobotany and and Palynology 159(1-2), 69-80.
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DOI: 10.1016/j.revpalbo.2009.11.001
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Abstract:
Abstract:
To study vegetation/modern pollen rain relationship a total of 41 pollen traps have been installed for one year on an altitudinal transect between 1800 and 3185 ma.s.l. elevation in the montane forest and páramo vegetation type of the ECSF research area, located between Loja and Zamora in the southeastern Ecuadorian Andes. Results revealed that the altitudinal vegetation gradient of lower montane forest, upper montane forest, subpáramo and páramo is well reflected in the modern pollen rain data. Principal component analysis (PCA) on the pollen rain data indicate that a high number of pollen and spore taxa are characteristic for one vegetation type or reflect the altitudinal distribution of genera and families of modern vegetation. However, a considerable number of pollen and spore taxa not representing modern vegetation types were identified as well. Wind dispersal is supposed to be responsible for differences found between plant and pollen distribution patterns. Characteristic pollen and spore taxa for the lower montane forest are Alchornea, Heliocarpus and Hyeronima; for the upper montane forest Cyathea spp., Elaphoglossum ciliatum and Purdiaea nutans; and for the subpáramo Cyperaceae, Ericaceae, Jamesonia and Valeriana. The position of the modern upper timberline in the research area is reflected in the pollen rain by an increase of subpáramo taxa and a decrease of montane forest taxa.
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Keywords: |
Ecuador |
Paramo |
Modern pollen rain |
montane forest |
upper timberline |
wind dispersal |
principal component analysis |
Brunschön, C.; Haberzettl, T. & Behling, H. (2010): High-resolution studies on vegetation succession, hydrological variations, anthropogenic impact and genesis of a subrecent lake in southern Ecuador. Vegetation History and Archaeobotany 19, 191-206.
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DOI: 10.1007/s00334-010-0236-4
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Abstract:
Abstract:
A lake sediment record from Laguna Campana at 2,488 m a.s.l. in the eastern Ecuadorian Andes allows the reconstruction of local environmental conditions over the past 500 years. A high-resolution multi-proxy approach using pollen, spore, charcoal and XRF analyses provides information about lake genesis, hydrological variations and the development of the surrounding vegetation. Results suggest that Laguna Campana originated from a landslide, which are naturally common and anthropogenically promoted in the study area. Human activities, e.g. deforestation or slash and burn cultivation, impacted the local vegetation development and biodiversity during the recorded period. After a first dense layer of pioneer grasses developed on open soil around the small lake, successional stages of secondary upper mountain rainforest forest mainly composed of Alnus and Weinmannia were observed. The record shows no signs of dense forest regeneration but rather open vegetation with trees and a grassy understory. Especially since ca. A.D. 1980, the proportion of forest in the area was reduced, most probably by fire use for pastures, cultivation and wood extraction. Hydrological variability was derived from differences in minerogenic input and variations in Botryococcus braunii and Sphagnum occurrence. After wettest conditions at the study site, probably triggering the landslide, humid conditions persisted until a time of drier conditions between A.D. 1900 and 1960. A subsequent return to wetter conditions was observed over the last decades. XRF analyses suggest an increase in deposition of atmospherically derived lead since the formation of the lake.
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Keywords: |
Ecuador |
Andes |
pollen |
multi-proxy |
vegetation history |
anthropogenic impact |
lead |
hydrological variability |
Niemann, H. & Behling, H. (2010): Late Holocene environmental change and human impact inferred from three soil monoliths and the Laguna Zurita multi-proxi record in the southeastern Ecuadorian Andes. Vegetation History and Archaeobotany 19(1), 1-15.
Brunschön, C. & Behling, H. (2009): Late Quaternary vegetation, fire and climate history reconstructed from two cores at Cerro Toledo, Podocarpus National Park, southeastern Ecuadorian Andes. Quaternary Research 72, 388-399.
Niemann, H. & Behling, H. (2009): Late Pleistocene and Holocene environmental change inferred from the Cocha Caranga sediment and soil records in the southeastern Ecuadorian Andes. Palaeogeography, Palaeoclimatology, Palaeoecology 276, 1-14.
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DOI: 10.1016/j.palaeo.2009.02.018
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Abstract:
Abstract:
Late Pleistocene and Holocene vegetation, climate and fire dynamics of mountain forest and paramo
ecosystems, as well as human impact, are presented from the Cocha Caranga area, at 2710 m elevation in the
Podocarpus National Park, southeastern Ecuadorian Andes. Palaeoenvironmental changes, inferred from two
sediment cores and a soil core were investigated by pollen, spore, algae and charcoal analyses.
During the transition from late Pleistocene to early Holocene between ca. 14,500 to 9700 cal yr BP upper
mountain forest vegetation expanded, suggesting increasing temperature and moisture. This expansion
abruptly stopped with increasing fires at ca. 9700 cal yr BP and open grassy vegetation became established.
The period from ca. 9700 to 1300 cal yr BP of strong fire intensity indicate that vegetation components,
mainly Weinmannia and Myrica, react sensitively to past, probably human caused fires. During the last few
centuries modern vegetation established, characterised by open grassy areas with forest patches and small
mires.
The green algae Botryococcus braunii, Isoetes and Cyperaceae were used to identify lake level fluctuation to
reconstruct Holocene wet/dry phases. Drier climatic conditions occurred from ca. 9700 to 6900 cal yr BP and
from ca. 4200 to 1300 cal yr BP. From ca. 6900 to 4200 cal yr BP and from ca. 1300 cal yr BP to modern times,
wetter climatic conditions occurred.
Niemann, H.; Haberzettl, T. & Behling, H. (2009): Holocene climate variability and vegetation dynamics inferred from the (11700 cal. yr BP) Laguna Rabadilla de Vaca sediment record, southeastern Ecuadorian Andes. The Holocene 19(2), 307-316.
Niemann, H. & Behling, H. (2008): Late Quaternary vegetation, climate and fire dynamics inferred from the El Tiro record in the southeastern Ecuadorian Andes. Journal of Quaternary Science 23(3), 203-212.
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DOI: 10.1002/jqs.1134
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Abstract:
Abstract:
In order to study the stability and dynamics of mountain rainforest and paramo ecosystems, including the biodiversity of these ecosystems, the Holocene and late Pleistocene climate and fire variability, and human impact in the southeastern Ecuadorian Andes, we present a high-resolution pollen record from El Tiro Pass (2810m elevation), Podocarpus National Park. Palaeoenvironmental changes, investigated by pollen, spores and charcoal analysis, inferred from a 127cm long core spanning the last ca. 21 000 cal. yr BP, indicate that grass-paramo was the main vegetation type at the El Tiro Pass during the late Pleistocene period. The grass-paramo was rich in Poaceae, Plantago rigida and Plantago australis, reflecting cold and moist climatic conditions. During the early Holocene, from 11200 to 8900 cal. yr BP, subparamo and upper mountain rainforest vegetation expanded slightly, indicating a slow warming of climatic conditions during this period. From 8900 to 3300 cal. yr BP an upper mountain rainforest developed at the study site, indicated by an increase in Hedyosmum, Podocarpaceae, Myrsine and Ilex. This suggests a warmer climate than the present day at this elevation. The modern subparamo vegetation became established since 3300 cal.yr BP at El Tiro Pass. Fires, probably anthropogenic origin, were very rare during the late Pleistocene but became frequent after 8000 cal. yr BP.