Publications
Found 849 publication(s)
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Mosandl, R.; Günter, S.; Stimm, B. & Weber, M. (2008): Ecuador Suffers the Highest Deforestation Rate in South America. In: Beck, Erwin; Bendix, Jörg; Kottke, Ingrid; Makeschin, Franz; Mosandl, Reinhard (eds.): Gradients in a Tropical Mountain Ecosystem of Ecuador (Ecological Studies 198), Springer, Berlin Heidelberg, 37-40.
Bodner, F. (2007): Early stages and feeding ecology of loopers (Lepidoptera: Geometridae) in a south Ecuadorian montane rainforest. University of Vienna, diploma thesis
Mosandl, R. & Günter, S. (2008): Sustainable management of tropical mountain forests in Ecuador. In: S. Robbert Gradstein; Jürgen Homeier; Dirk Gansert (eds.): Biodiversity and Ecology Series (2): The tropical mountain forest (Biodiversity and Ecology Series 2), Universitätsverlag Göttingen, 179-195.
Günter, S.; Cabrera, O.; Weber, M.; Stimm, B.; Zimmermann, R.; Fiedler, K.; Knuth, J.; Boy, J.; Wilcke, W.; Iost, S.; Makeschin, F.; Werner, F.A.; Gradstein, S.R. & Mosandl, R. (2008): Natural Forest Management in Neotropical Mountain Rain Forests: An Ecological Experiment. In: Beck, Erwin; Bendix, Jörg; Kottke, Ingrid; Makeschin, Franz; Mosandl, Reinhard (eds.): Gradients in a Tropical Mountain Ecosystem of Ecuador (Ecological Studies 198), Springer, Berlin Heidelberg, 363-376.
Gradstein, S.R.; Homeier, J. & Gansert, D. 2008: The tropical mountain forest - Patterns and processes in a biodiversity hotspot. 2 (Universitätsverlag Göttingen, Göttingen).
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Preface Tropical mountain forests (or "montane forests"; the two terms are interchangeable although the latter more specifically refers to the altitudinal vegetation belt) are very rich in species and are generally considered as hotspots of biodiversity. They are also of great ecological importance as sources of water and other ecosystem services for millions of people living in the tropics. However, these valuable forest ecosystems are now increasingly being fragmented, reduced and disturbed by human interventions. Concern about the future of the tropical mountain forests has triggered an increasing amount of research on the exceptionally rich biodiver-sity and ecological complexity of these forests in recent years.
This book originated from a lecture series on the tropical mountain forest organized by the Göttingen Centre of Biodiversity and Ecology and held at the Uni-versity of Göttingen, Germany, in the summer of 2007. The purpose of the lecture series was to present a synthesis of current ecological research in Germany on the tropical mountain forest, from an interdisciplinary perspective.
The subjects presented include a large variety of topics including climate, quaternary history, species richness and endemism, impact of forest disturbance on biodiversity, mycorrhizal diversity, soil fauna, vegetation dynamics, carbon alloca-tion and productivity, forest hydrology, soil dynamics, indigenous land use and sustainable management of tropical mountain forests. The final chapter summarizes current understanding of the incidence of tropical mountain forest hotspots from an ecosystem perspective. All contributions are based on recent empirical research, with a special focus on the Andes of Ecuador which harbour one of the richest and most endangered mountain forest resources on earth and are the loca-tion of major ongoing investigations of Research Units 402 and 816 (www.tropicalmountainforest.org) of the German Research Foundation (DFG).
We are much indebted to the authors for their valuable contributions. We also thank the DFG Research Unit 816 and its speaker, Prof. Dr. J. Bendix, for financial support towards the publication of this book.
Göttingen, February 2008 Stephan Robbert Gradstein
Jürgen Homeier
Dirk Gansert
Kottke, I.; Beck, A.; Haug, I.; Setaro, S. & Suarez, J.P. (2008): Mycorrhizal fungi and plant diversity in tropical mountain rainforest. In: S. Robbert Gradstein; Jürgen Homeier; Dirk Gansert (eds.): The Tropical Mountain Forest (Biodiversity and Ecology Series 2), Universitätsverlag Göttingen, 67-78.
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Mycorrhizal fungi, because of their obligate symbiotic interaction with plant roots, may either promote or restrict plant diversity depending on broad or narrow plant-fungus relationships. It was challenging to investigate these relationships in a hotspot of plant diversity, the tropical mountain rain forest of Southern Ecuador. Inventories, based on morphotyping and DNA sequencing, were carried out on the mycorrhizal fungi associated with 115 tree species belonging to 40 families, 20 ericad species and 4 epiphytic orchid species in an area of about 12 ha in the Reserva Biológica San Francisco at 1 850 to 2 300 m. Results indicated that diverse Glomeromycota with broad host range may promote high tree diversity, while diverse but plant-family restricted Sebacinales likely support closely related Andean ericads, and diverse, orchidrestricted Tulasnellales and Sebacinales closely related epiphytic orchids. Ectomycorrhizal fungi were found specifically associated with three Nyctaginacean trees and with one member of Melastomataceae. We conclude that the extraordinary high plant diversity of the tropical Andean forest is predominantly promoted by a broad range of mycorrhizal fungi but selected trees are supported by specific fungi.
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.
Behling, H. (2008): Tropical Mountain Forest dynamics in the Mata Atlantica and northern Andean biodiversity hotspot during the late Quaternary. In: Gradstein, S. Robbert; Homeier, Jürgen; Gansert, Dirk (eds.): The tropical mountain forest - Patterns and processes in a biodiversity hotspot (Biodiversity and Ecology Series 2), Universitätsverlag Göttingen, 26-34.
Domes, K.; Norton, R.A.; Maraun, M. & Scheu, S. (2007): Reevolution of sexuality breaks Dollo´s law. PNAS 104, 7139-7144.
Illig, J.; Maraun, M. & Scheu, S. (2007): Oribatida (mites). Checklist Reserva Biológica San Francisco. Ecotropical Monographs 4, 221-230.
Illig, J.; Schatz, H.; Scheu, S. & Maraun, M. (2008): Decomposition and colonization by micro-arthropods of two litter types in a tropical montane rain forest in southern Ecuador . Journal of Tropical Ecology 24, 157-167.
Krashevska, V.; Bonkowski, M.; Maraun, M.; Ruess, L.; Kandeler, E. & Scheu, S. (2008): Microorganisms as driving factors for the community structure of testate amoebae along an altitudinal transect in tropical mountain rain forests . Soil Biology and Biochemistry 40(9), 2427-2433.
Krashevska, V.; Bonkowski, M.; Maraun, M. & Scheu, S. (2007): Testate amoebae (protista) of an elevational gradient in the tropical mountain rain forest of Ecuador. Pedobiologia 51, 319-331.
Maraun, M. (2007): Awesome or ordinary? Global diversity patterns of oribatid mites. Ecography 30, 209-216.
Nöske, N.; Hilt, N.; Werner, F.A.; Brehm, G.; Fiedler, K.; Sipman, H.J. & Gradstein, S.R. (2008): Disturbance effects on diversity of epiphytes and moths in a montane forest in Ecuador. Basic and Applied Ecology 9, 4-12.
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DOI: 10.1016/j.baae.2007.06.014
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We sampled the diversity of epiphytes (lichens, bryophytes, vascular plants) and moths (Geometridae, Arctiidae) in
mature and recovering forest and in open vegetation in the montane belt in Ecuador. No uniform pattern of change in
species richness was detected among the different taxonomic groups with increasing disturbance. Species richness of
epiphytic bryophytes and vascular plants declined significantly from mature forest towards open vegetation. In
contrast, species richness of epiphytic lichens did not change with increasing forest alteration, while that of geometrid
moths was significantly higher in recovering forest compared with mature forest and open habitats. Arctiidae were
significantly more species-rich in recovering forest and open vegetation than mature forest. Hence, for some organisms,
modified habitats may play an important role for biodiversity conservation in the Andes, whereas others suffer from
habitat disturbance. However, trends of changes in species composition following deforestation were surprisingly
concordant across most studied epiphyte and moth taxa.
Niedbala, W. & Illig, J. (2007): New species and new records of Ptyctimous mites from Ecuador. Tropical Zoology 20, 135-150.
Illig, J. & Niedbala, W. (2008): Ptyctimous mites (Acari, Oribatida) from the Ecuador rainforest. Journal of Natural History 41, 771-777.
Gradstein, S.R. (2008): Epiphytes and deforestation in the tropics. Abhandlungen aus dem Westfälischen Museum für Naturkunde 70, 417-424.
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The rapid conversion of tropical forests poses the question as to the fate of the
rich epiphyte communities of these forests. This paper presents results of our recent
investigations on deforestation and epiphytes along disturbance gradients in mountain
forest areas in Bolivia, Ecuador and Costa Rica. Species losses following disturbance
vary considerably among the different groups of epiphytes and are particularly severe
among orchids, bromeliads and filmy ferns. Moreover, shade epiphytes of the forest
understory are more strongly impacted than sun epiphytes of the forest canopy. Species
turnover along the disturbance gradient is high in all epiphyte groups and recovery of the
epiphyte communities in the regenerating secondary forests is very slow. Canopy closure
and microclimate are principal factors predicting epiphyte diversity changes along the
disturbance gradient. In addition, changes in tree species composition and host tree
characteristics play an important role. The lichen / bryophyte species ratio is a powerful
indicator of the degree of human disturbance in tropical moist forests.
Werner, F.A.; Ledesma, K.J. & Hidalgo, R. (2006): Mountain viscacha (Lagidium cf. peruanum) in Ecuador - a first record of Chinchillidae for the northern Andes. Mastozoología Neotropical 13, 271-274.
Matt, F. & Werner, F.A. (2007): Mammals. Checklist of the Reserva Biológica San Francisco (Prov. Zamora-Chinchipe, S-Ecuador). Ecotropical Monographs 4, 125-129.
Werner, F.A. & Gradstein, S.R. (2008): Seedling establishment of vascular epiphytes on isolated and enclosed forest trees in an Andean landscape, Ecuador. Biodiversity and Conservation 17(13), 3195-3207.
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DOI: 10.1007/s10531-008-9421-5
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The impact of human disturbance on colonisation dynamics of vascular epiphytes
is poorly known. We studied abundance, diversity and floristic composition of epiphyte
seedling establishing on isolated and adjacent forest trees in a tropical montane landscape. All
vascular epiphytes were removed from plots on the trunk bases of Piptocoma discolor. Newly
established epiphyte seedlingswere recorded after 2 years, and their survival after another year.
Seedling density, total richness at family and genus level, and the number of families and genera
per plot were significantly reduced on isolated trees relative to forest trees. Seedling assemblages
on trunks of forest trees were dominated by hygrophytic understorey ferns, those on
isolated trees by xerotolerant canopy taxa. Colonisation probability on isolated trees was
significantly higher for plots closer to forest but not for plots with greater canopy or bryophyte
cover. Seedling mortality on isolated trees was significantly higher for mesophytic than for
xerotolerant taxa. Our results show that altered recruitment can explain the long-term impoverishment
of post-juvenile epiphyte assemblages on isolated remnant trees.We attribute these
changes to a combination of dispersal constraints and the harshermicroclimate documented by
measurements of temperature and humidity. Although isolated trees in anthropogenic landscapes
are considered key structures for themaintenance of forest biodiversity inmany aspects,
our results show that their value for the conservation of epiphytes can be limited.We suggest
that abiotic seedling requirementswill increasingly constitute a bottleneck for the persistence of
vascular epiphytes in the face of ongoing habitat alteration and atmospheric warming.
Werner, F.A. & Gradstein, S.R. (2009): Diversity of dry forest epiphytes along a gradient of human disturbance in the tropical Andes. Journal of Vegetation Science 20(1), 59-68.
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DOI: 10.3170/2008-8-18466
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Question: Disturbance effects on dry forest epiphytes are poorly known. How are epiphytic assemblages affected by different degrees of human disturbance, and what are the driving forces?
Location: An inter-Andean dry forest landscape at 2300 m elevation in northern Ecuador.
Methods: We sampled epiphytic bryophytes and vascular plants on 100 trees of Acacia macracantha in five habitats: closed-canopy mixed and pure acacia forest (old secondary), forest edge, young semi-closed secondary woodland, and isolated trees in grassland.
Results: Total species richness in forest edge habitats and on isolated trees was significantly lower than in closed forest types. Species density of vascular epiphytes (species per tree) did not differ significantly between habitat types. Species density of bryophytes, in contrast, was significantly lower in edge habitat and on isolated trees than in closed forest. Forest edge showed greater impoverishment than semi-closed woodland and similar floristic affinity to isolated trees and to closed forest types. Assemblages
were significantly nested; habitat types with major disturbance held only subsets of the closed forest assemblages, indicating a gradual reduction in niche availability. Distance to forest had no effect on species density of epiphytes on isolated trees, but species density was closely correlated with crown closure, a measure of canopy integrity.
Main conclusions: Microclimatic changes but not dispersal constraints were key determinants of epiphyte assemblages following disturbance. Epiphytic cryptogams are sensitive indicators of microclimate and human disturbance in montane dry forests. The substantial impoverishment of edge habitat underlines the need for fragmentation studies on epiphytes elsewhere in the Tropics.
Nauss, T.; Göttlicher, D.; Dobbermann, M. & Bendix, J. (2007): Central Data Services in Multidisciplinary Environmental Research Projects. eZAI 2, 1-13.
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Multidisciplinary research projects bear a great potential for the exploration and understanding of complex interrelations e. g. between ecosystem and atmospheric processes. On the other hand, cooperating scientist often face the problem of finding effective yet time inexpensive ways of data and knowledge transfer between the individual working groups in order to maximize synergetic effects and consequently to succeed in research. Based on the experience within different multidisciplinary research projects, the authors introduce two different concepts for central data services and discuss the related advantages and disadvantages using the DFG research unit 402 and 816 as an exemplarily case. In general, it can be established that the required degree of interaction between the working group is a good indicator for choosing between the different central data service concepts.
Bendix, J.; Rollenbeck, R.; Göttlicher, D.; Nauss, T. & Fabian, P. (2008): Seasonality and diurnal pattern of very low clouds in a deeply incised valley of the eastern tropical Andes (South Ecuador) as observed by a cost-effective WebCam system. Meteorological Applications 15, 281-291.
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DOI: 10.1002/met.72
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To date, the annual and diurnal pattern of low clouds touching the ground in tropical mountains is widely unknown. This holds true for the valley of the Rio San Francisco in southern Ecuador, and is mainly due to a lack of routine cloud observations, which is symptomatic for remote areas in tropical high mountains. A method to use a simple and cost-effective WebCam system for a quantitative analysis of cloud frequency as a proxy for the occurrence of low-cloud bases touching the ground is introduced. An interactive classification tool is developed, which is applied to a comprehensive dataset of 32 452 images (during the years 2002?2004) archived at 5 min intervals. The results point
to a rapid increase of cloud frequency at altitudes >2600 m asl both during the day and the year, mainly caused by advective clouds veiling the crests of the Cordillera del Consuelo. Even if the formation of radiation fog directly at the valley bottom is nearly negligible with regard to the whole dataset, scatterometer measurements suggest that valley fog formation on the slopes is a regular process during the night, causing a clear drop in the cloud base around sunrise. The interaction of low-radiative and high-advective clouds is supposed to be the driving factor for a rainfall maximum at the valley bottom around sunrise. Higher values of cloud frequency still exist at the crest level around noon: these originate from well-developed upslope-breeze systems.
Fleischbein, K.; Wilcke, W.; Valarezo, C.; Zech, W. & Knoblich, K. (2006): Water budgets of three small catchments under montane forest in Ecuador: experimental and modelling approach. Hydrological Processes 20, 2491-2507.
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DOI: 10.1002/hyp.6212
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The water budget of forested catchments controls the local water supply and influences the regional climate. To assess anthropogenic impact on the water cycle we constructed a water budget for three ~10 ha catchments under lower montane forest on the east-facing slope of the Andes in south Ecuador at 1900-2150 m elevation. We used field hydrological measurements and modeled surface flows with TOPMODEL, a semi-distributed catchment model. We measured incident precipitation, throughfall, stemflow, and surface flow between May 1998 and April 2002 in hourly to weekly resolution, and determined all variables needed to parameterize TOPMODEL. On average of the four monitored years and three catchments, incident precipitation was 2504±s.d.123 mm, throughfall 1473±197 mm, and stemflow 25±2 mm yr-1. Fog water input was negligible. Mean annual interception loss in the forest was 1006±270 mm, and mean annual surface flow, calculated with TOPMODEL in an hourly resolution was 1039±48 mm. The resulting mean annual evapotranspiration was 1466±161 mm of which 32% (=471±162 mm) was transpiration if evaporation from the soil was neglected. Our study catchments show a high evapotranspiration attributable to the strong solar insolation near the equator, the small impact of fog, the generally low intensity of incident precipitation and additional wind-driven advective energy input.
Knoke, T.; Stimm, B. & Weber, M. (2008): Tropical farmers need productive alternatives. Nature 452, 934.
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DOI: 10.1038/452934b
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SIR ? Your Editorial ?Markets can save forests? proposes integrating deforestation into the international carbon market (Nature 452, 127?128; 2008), but it is unlikely that money alone can solve the problem.
The process of tropical deforestation presents a dilemma: enormous economic value more than US$ 2,000 a year per hectare is lost in favour of small private benefits (often less than US$ 100 a year per hectare). In a true market, an increased, scarcity-signalling price should provide an incentive to boost the supply of the scarce commodity. So far, this has not worked in the case of tropical forests. Real financial flows received for the provision of ecosystem services are vanishingly small, if they exist at all ? only a few beneficiaries have been convinced to pay for environmental services. This illustrates the essentially theoretical character (at least, up till now) of economic values generated by ecosystem services.
Payments for ecosystem services (PES) are supposed to save tropical forests. But even if it were possible to mobilize substantial PES, tropical farmers wouldn?t be prepared to stand by and twiddle their thumbs while receiving these payments to protect the forest. They need a field of activity, so sustainable land-use concepts should address the social environment and needs of people as well. These concepts could be linked and possibly financed by PES.
If the people who use tropical lands are disregarded, we don?t believe that PES will solve the problem of disappearing tropical forests. What is needed is an economic system that keeps people gainfully employed in an activity that is ultimately productive, not destructive.
Zimmermann, A.; Wilcke, W. & Elsenbeer, H. (2007): Spatial and temporal patterns of throughfall quantity and quality in a tropical montane forest in Ecuador.. Journal of Hydrology 343, 80-96.
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DOI: 10.1016/j.jhydrol.2007.06.012
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In forests, complex canopy processes control the change in volume and chemical composition of rain water. We hypothesize that (i) spatial patterns, (ii) the temporal stability of spatial patterns, and (iii) the temporal course of solute concentrations can be used to explore these processes. The study area at 1950 m above sea level in the south Ecuadorian Andes is far away from anthropogenic emission sources and marine influences. It received ca. 2200 mm of rain annually. We collected rain and throughfall on an event and within-event basis for five precipitation periods between August and October 2005 at up to 25 sites and analyzed the samples for pH and concentrations of , , , , , , , , and total N ( ), P ( ), and organic C ( ). Cumulative throughfall amounted to 79% of rainfall. Compared with other tropical forests, rainfall solute concentrations were low and throughfall solute concentrations similar. Volumes and solute concentrations of rainfall were spatially and temporally little variable. The spatial coefficient of variation for throughfall volumes was 53%, for solute concentrations 28292%, and for deposition 33252%. Temporal persistence of spatial patterns was high for throughfall volumes and varied among solutes. Spatial patterns of , and concentrations in throughfall were highly persistent. The spatial patterns of throughfall fluxes were less stable than those of concentrations. During a monitoring time of 72 hours, solute concentrations in throughfall of selected rain events remained at a similar level indicating that the leachable element pool in the canopy was not exhausted. Our results demonstrate that the passage of rain through the canopy of a tropical montane forest in Ecuador results in a spatially heterogeneous throughfall pattern with a considerable stability during three months. There is a large leachable element pool in the canopy, which is not depleted by the typical light rain within 72 hours.
Wilcke, W.; Oelmann, Y.; Schmitt, A.; Valarezo, C.; Zech, W. & Homeier, J. (2008): Soil properties and tree growth along an altitudinal transect in Ecuadorian tropical montane forest. Journal of Plant Nutrition and Soil Science 171, 220-230.
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DOI: 10.1002/jpln.200625210
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In tropical montane forests, soil properties change with altitude and tree growth decreases. In a tropical montane forest in Ecuador, we determined soil and tree properties along an altitudinal transect between 1960 and 2450 m above seal level. In different vegetation units height, basal area, and diameter growth of trees were recorded, and all horizons of three replicate profiles at each of eight sites were sampled. We determined pH and total concentrations of Al, C, Ca, K, Mg, Mn, N, Na, P, S, Zn, polyphenols, and lignin in all soil horizons and in the mineral soil additionally the effective cation-exchange capacity (ECEC). The soils were Cambisols, Planosols, and Histosols. The concentrations of Mg, Mn, N, P, and S in the O horizons and of Al, C, and all nutrients except Ca in the A horizons correlated significantly negatively with altitude. The C/N, C/P, and C/S ratios increased and the lignin concentrations decreased in O and A horizons with increasing altitude. Forest stature, tree basal area, and tree growth decreased with altitude. An ANOVA analysis indicated that macronutrients (e.g., N, P, Ca) and micronutrients (e.g., Mn) in the organic layer and in the soil mineral A horizon were correlated with tree growth. Furthermore, lignin concentrations in the organic layer and the C/N ratio in soil affected tree growth. These effects were consistent, even if the effect of altitude was accounted for in a statistical hierarchical model. This suggests a contribution of nutrient deficiencies to reduced tree growth possibly caused by reduced organic matter turnover at higher altitudes.
Boy, J. & Wilcke, W. (2008): Tropical Andean forest derives calcium and magnesium from Saharan dust.. Global Biogeochemical Cycles 22, GB1027.
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DOI: 10.1029/2007GB002960
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[1] We quantified base metal deposition to Amazonian montane rainforest in Ecuador between May 1998 and April 2003 and assessed the response of the base metal budget of three forested microcatchments (8-13 ha). There was a strong interannual variation in deposition of Ca [4.4-29 kg ha-1 yr-1], Mg [1.6-12], and K [9.8-30]). High deposition changed the Ca and Mg budgets of the catchments from loss to retention, suggesting that the additionally available Ca and Mg was used by the ecosystem. Increased base metal deposition was related to dust outbursts of the Sahara and an Amazonian precipitation pattern with trans-regional dry spells allowing for dust transport to the Andes. The increased base metal deposition coincided with a strong La Niña event in 1999/2000.
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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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.