Publications
Found 380 publication(s)
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Curatola Fernández, G.F.; Obermeier, W.; Gerique, A.; López Sandoval, M.F.; Lehnert, L.; Thies, B. & Bendix, J. (2015): Land Cover Change in the Andes of Southern Ecuador - Patterns and Drivers. Remote Sensing 7(3), 2509-2542.
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DOI: 10.3390/rs70302509
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Abstract:
Abstract:
In the megadiverse tropical mountain forest in the Andes of southern Ecuador, a global biodiversity hotspot, the use of fire to clear land for cattle ranching is leading to the invasion of an aggressive weed, the bracken fern, which is threatening diversity and the provisioning of ecosystem services. To find sustainable land use options adapted to the local situation, a profound knowledge of the long-term spatiotemporal patterns of land cover change and its drivers is necessary, but hitherto lacking. The complex topography and the high cloud frequency make the use of remote sensing in this area a challenge. To deal with these conditions, we pursued specific pre-processing steps before classifying five Landsat scenes from 1975 to 2001. Then, we quantified land cover changes and habitat fragmentation, and we investigated landscape changes in relation to key spatial elements (altitude, slope, and distance from roads). Good classification results were obtained with overall accuracies ranging from 94.5% to 98.5% and Kappa statistics between 0.75 and 0.98. Forest was strongly fragmented due to the rapid expansion of the arable frontier and the even more rapid invasion by bracken. Unexpectedly, more bracken-infested areas were converted to pastures than vice versa, a practice that could alleviate pressure on forests if promoted. Road proximity was the most important spatial element determining forest loss, while for bracken the altitudinal range conditioned the degree of invasion in deforested areas. The annual deforestation rate changed notably between periods: ~1.5% from 1975 to 1987, ~0.8% from 1987 to 2000, and finally a very high rate of ~7.5% between 2000 and 2001. We explained these inconstant rates through some specific interrelated local and national political and socioeconomic drivers, namely land use policies, credit and tenure incentives, demography, and in particular, a severe national economic and bank crisis.
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Keywords: |
Ecuador |
land cover change |
remote sensing |
Andes |
fragmentation |
bracken fern |
deforestation drivers |
Landsat |
image pre-processing |
attractors of landscape change |
Rollenbeck, R.; Bayer, F.; Münchow, J.; Rodriguez, R. & Atarama, n. (2015): Climatic cycles and gradients of the El Niño core region in North Peru. Advances in Meteorology vol 2105(1), 1-10.
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DOI: 10.1155/2015/750181
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Abstract:
Abstract:
Climatic processes in northern Peru are evaluated on surface observation independent of modelling studies. The region is characterized by regular oscillations, but episodic El Niño-events introduce strong disturbances. Conceptual models based on observations, remote sensing data, and output of regional climate models are compared with data from a new station network. The results show regular oscillations of all climate variables on the annual and daily time scale. The daily cycle is probably associated with thermotidal forcings, causing gravity waves to emanate from the Andes Cordillera. Main factors are the interaction of large scale pressure systems like the Southeast Pacific High and the intertropical convergence zone (ITCZ). Also, there are regional factors: an extended sea-breeze system, the barrier-effect of the Andes, additional energy input by elevated radiation absorption at the mountain slopes, local wind systems, and the variations of the sea surface temperature. At the coast, a low-level jet works as a thermodynamic energy sink, suppressing deep convection and supporting the aridity. Those patterns are found in most of the station data and the processes of this climate can generally be confirmed. The overturning of this stable system with the onset of El Niño-conditions is possibly caused by disruptions of the regional circulation.
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Keywords: |
radiative transfer |
regional atmospheric circulation |
Weather cycles |
tropisches Südamerika |
Desert |
Rüthrich, F.; Thies, B.; Reudenbach, C. & Bendix, J. (2015): Lake effects on cloud dynamics on the Tibetan Plateau.. Journal of Climate 28, 9080-9104.
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DOI: 10.1175/JCLI-D-14-00698.1
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Abstract:
Abstract:
The scarcity of meteorological observations has hitherto prevented spatially comprehensive and complete
assessments on regional and local-scale atmospheric processes such as breeze systems on the Tibetan Plateau
(TiP). Because of the high abundance of lakes, the steep topography, and the intense insolation of the TiP,
lake breeze and land breeze systems might, however, contribute substantially to the local climatic and hydrological
variability. The presented study aims at unveiling the influence of the lake effect over the whole TiP
by using a novel high-mountain satellite cloud product, based on Meteosat Indian Ocean Data Coverage
(IODC) data from 1999 to 2012, focusing on 70 lake systems larger than 72 km2
. Of particular interest are the
spatial and interannual variability of lake-related cloud dynamics during boreal summer and autumn. For
both seasons, a significant effect of lakes on cloudiness is shown during the early morning. Its mean strength is
mainly determined by each basin’s temperature difference between lake and surroundings. For boreal
summer the large-scale influences of tropical and extratropical circulation pattern on the interannual variability
of the lake effect are also investigated. The results show that the Arctic and North Atlantic Oscillations
(AO and NAO) inhibit convective activity above lakes in the northern and central-eastern domain. A positive
polarity of the Southern Oscillation index (SOI), in contrast, is in phase with enhanced convective activity.
The variability of the Indian summer monsoon circulation does not affect cloud dynamics at more than two
locations. Case studies are employed to illustrate interactions between cloud activity and the SOI and NAO.
For this purpose satellite data are combined with the modeled 10 km 3 10 km High Asia Refined Analysis
dataset on a daily basis.
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Keywords: |
Tibetan Plateau |
cloud dynamics |
Geographic location/entity |
Inland seas/lakes |
Clouds |
Lake effects |
Physical Meteorology and Climatology |
Mesoscale processes |
Variability |
Interannual variability |
Oscillations |
Obregon, A.; Gehrig-Downie, C.; Gradstein, S.R. & Bendix, J. (2014): The potential distribution of tropical lowland cloud forest as revealed by a novel MODIS-based fog/low stratus night-time detection scheme.. Remote Sensing of Environment 155, 312–324.
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DOI: 10.1155/2014/427916
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Abstract:
Fog is a crucial driver of epiphyte richness in tropical montane cloud forests but its spatial occurrence and role in tropical lowland areas is poorly understood. Recent studies in French Guiana have reported high epiphyte richness in previously undescribed “tropical lowland cloud forest” (LCF) due to radiation fog. Here, we analyze the spatial extent of fog/low stratus (FLS) in lowland forests of French Guiana using the frequency distribution by means of night-time MODIS (Moderate Resolution Imaging Spectroradiometer) satellite data for the years 2007–2010. The analysis is based on a newly developed dynamic threshold-test method relying on brightness temperature differences between thermal and mid-infrared bands. Individual thresholds for the discrimination between fog/low stratus and cloud-free pixels were retrieved by radiative transfer calculations and validated using discriminant analysis. The thresholds dynamically depend on total precipitable water (TPW) and the terrain-induced maximum possible sub-pixel fog coverage. The results of the new retrieval were validated using in-situ data and compared to results from existing fog detection algorithms, showing an improvement of the new detection scheme regarding the capability to detect sub-pixel fog coverage under varying TPW. FLS frequency maps derived from the novel fog classification scheme indicate a widespread distribution of night-time fog in river valleys, marking a multitude of potential areas for LCF throughout French Guiana. LCF is probably not only a local phenomenon but also may be widely distributed in river valleys in the lowland tropics, with significant consequences for biodiversity mapping in tropical lowland areas.
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Keywords: |
Lowland cloud forest |
Fog detection |
MODIS |
Epiphyte diversity |
Knoke, T.; Bendix, J.; Pohle, P.; Hamer, U.; Hildebrandt, P.; Roos, K.; Gerique, A.; López Sandoval, M.F.; Breuer, L.; Tischer, A.; Silva, B.; Calvas, B.; Aguirre, N.; Castro, L.M.; Windhorst, D.; Weber, M.; Stimm, B.; Günter, S.; Palomeque, X.; Mora, J.; Mosandl, R. & Beck, E. (2014): Afforestation or intense pasturing improve the ecological and economic value of abandoned tropical farmlands. Nature communications 5, 5612.
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DOI: 10.1038/ncomms6612
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Abstract:
Abstract:
Increasing demands for livelihood resources in tropical rural areas have led to progressive clearing of biodiverse natural forests. Restoration of abandoned farmlands could counter this process. However, as aims and modes of restoration differ in their ecological and socio-economic value, the assessment of achievable ecosystem functions and benefits requires holistic investigation. Here we combine the results from multidisciplinary research for a unique assessment based on a normalization of 23 ecological, economic and social indicators for four restoration options in the tropical Andes of Ecuador. A comparison of the outcomes among afforestation with native alder or exotic pine, pasture restoration with either low-input or intense management and the abandoned status quo shows that both variants of afforestation and intense pasture use improve the ecological value, but low-input pasture does not. Economic indicators favour either afforestation or intense pasturing. Both Mestizo and indigenous Saraguro settlers are more inclined to opt for afforestation.
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Keywords: |
afforestation |
pasturing |
abandoned tropical farmlands |
ecology |
Träger-Chatterjee, C.; Müller, R.W. & Bendix, J. (2014): Analysis and discussion of atmospheric precursor of European heat summers. Advances in Meteorology 2014, 427916.
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DOI: 10.1155/2014/427916
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Abstract:
The prediction of summers with notable droughts and heatwaves on the seasonal scale is challenging, especially in extratropical regions, since their development is not yet fully understood. Thus, monitoring and analysis of such summers are important tasks to close this knowledge gap. In a previous paper, the authors presented hints that extreme summers are connected with specific conditions during the winter-spring transition season. Here, these findings are further discussed and analysed in the context of the Earth’s circulation systems. No evidence for a connection between the North Atlantic Oscillation or the Arctic Oscillation during the winter-spring transition and extremely hot and dry summers is found. However, inspection of the geopotential at 850?hPa shows that a Greenland-North Sea-Dipole is connected with extreme summers in Central Europe. This motivated the introduction of the novel Greenland-North Sea-Dipole-Index, GNDI. However, using this index as predictor would lead to one false alarm and one missed event in the time series analysed (1958–2011). Hints are found that the disturbance of the “dipole-summer” connection is due to El Niño/Southern Oscillation (ENSO). To consider the ENSO effect, the novel Central European Drought Index (CEDI) has been developed, which is composed of the GNDI and the Bivariate ENSO Time Series Index. The CEDI enables a correct indication of all extremely hot and dry summers between 1958 and 2011 without any false alarm.
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Keywords: |
European Heat Summers |
Atmospheric Precursor |
Greenland-North Sea-Dipole-Index |
ENSO Disturbance |
Central European Drought Index |
North Atlantic Oscillation |
Arctic Oscillation |
Makowski Giannoni, S.; Rollenbeck, R.; Trachte, K. & Bendix, J. (2014): Natural or anthropogenic? On the origin of atmospheric sulfate deposition in the Andes of southeastern Ecuador. Atmospheric Chemistry and Physics 14, 11297– 11312.
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DOI: 10.5194/acp-14-11297-2014
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Abstract:
Abstract:
Atmospheric sulfur deposition above certain limits can represent a threat to tropical forests, causing nutrient
imbalances and mobilizing toxic elements that impact biodiversity and forest productivity. Atmospheric sources of sulfur deposited by precipitation have been roughly identified in only a few lowland tropical forests. Even scarcer are studies of this type in tropical mountain forests, many of them mega- diversity hotspots and especially vulnerable to acidic deposition. In these places, the topographic complexity and related streamflow conditions affect the origin, type, and intensity of deposition. Furthermore, in regions with a variety of natural and anthropogenic sulfur sources, like active volcanoes and biomass burning, no source emission data has been used for determining the contribution of each source to the deposition. The main goal of the current study is to evaluate sulfate (SO?4) deposition by rain and occult precipitation at two to- pographic locations in a tropical mountain forest of southern Ecuador, and to trace back the deposition to possible emission sources applying back-trajectory modeling. To link upwind natural (volcanic) and anthropogenic (urban/industrial and biomass-burning) sulfur emissions and observed sulfate deposition, we employed state-of-the-art inventory and satellite data, including volcanic passive degassing as well. We conclude that biomass-burning sources generally dominate sulfate deposition at the evaluated sites. Minor sulfate transport occurs during the shifting of the predominant winds to the north and west. Occult precipitation sulfate deposition and likely rain sulfate deposition are mainly linked to biomass-burning emissions from the Amazon lowlands. Volcanic and anthropogenic emissions from the north and west contribute to occult precipitation sulfate deposition at the mountain crest Cerro del Consuelo meteorological station and to rain-deposited sulfate at the upriver mountain pass El Tiro meteorological station.
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Keywords: |
Andes |
atmospheric deposition |
source-receptor model |
sulphate |
Schulz, M.; Thies, B.; Chang, S. & Bendix, J. (2014): Automatic cloud top height determination in mountainous areas using a cost-effective time-lapse camera system . Atmospheric Measurement Techniques 7, 4185 - 4201.
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DOI: 10.5194/amt-7-4185-2014
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Abstract:
Abstract:
A new method is presented for the determination of cloud top heights using the footage of a time-lapse camera that is placed above a frequently occurring cloud layer in a mountain valley. Contact points between cloud tops and underlying terrain are automatically detected in the camera image based on differences in the brightness, texture and movement of cloudy and non-cloudy areas. The height of the detected cloud top positions is determined by comparison with a digital elevation model projected to the view of the camera. The technique has been validated using data about the cloud immersion of a second camera as well as via visual assessment. The validation shows a high detection quality, especially regarding the requirements for the validation of satellite cloud top retrieval algorithms.
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Keywords: |
machine vision |
Silva, B.; Lehnert, L.; Roos, K.; Fries, A.; Rollenbeck, R.; Beck, E. & Bendix, J. (2014): Mapping Two Competing Grassland Species from a Low-Altitude Helium Balloon. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 7(7), 3038 - 3049.
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DOI: 10.1109/JSTARS.2014.2321896
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Abstract:
Abstract:
This paper describes a method of low-altitude remote sensing in combination with in situ measurements (leaf area, spectroscopy, and position) to monitor the postfire canopy recovery of two competing grassland species. The method was developed in the Andes of Ecuador, where a tethered balloon with a digital camera was deployed to record a time series of very high spatial resolution imagery (nominal resolution=2 cm ) of an experimental plot covered by two competing species: 1) the pasture grass, Setaria sphacelata; and 2) the invasive southern bracken, Pteridium arachnoideum. Image processing techniques were combined to solve geometric issues and construct high-quality mosaics for image classification. The semiautomatic and object-oriented classification method was based on geometrical and textural attributes of image segments and showed promising results for detecting the invasive bracken fern in Setaria pastures (performance by area under the curve, AUC = 0.88). Valuable insights are given into vegetation monitoring applications using unmanned aerial vehicles, which produces a time series of species-specific maps, including foliage projective cover (FPC) and leaf area index (LAI). This new method constitutes an important and accessible tool for ecological investigations of competing species in pastures and validation of remote sensing information on mountain environments.
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Keywords: |
bracken fern |
Image Texture |
abandoned pastures |
classification |
image processing |
Li, Y.; Zhang, S.; Thies, B.; Trachte, K. & Bendix, J. (2014): Spatio-temporal detection of fog / low stratus top height over the geostationary satellite data as a precondition for ground fog detection – a feasibility study. Atmospheric Research 151, 212-223.
Trachte, K.; Obregon, A.; Bissolli, P.; Kennedy, J.; Parker, D.; Trigo, R. & Barriopedro, D. (2014): Regional climates. Europe and the Middle East [in "State of the Climate in 2013"]. Bulletin of the American Meteorological Society 95(7), S181-193.
Egli, S.; Maier, F.; Bendix, J. & Thies, B. (2014): Vertical distribution of microphysical properties in radiation fogs - A case study. Atmospheric Research 151, 130-145.
Fries, A.; Rollenbeck, R.; Bayer, F.; Gonzalez, V.; Oñate-Valdivieso, F.; Peters, T. & Bendix, J. (2014): Catchment precipitation processes in the San Francisco valley in southern Ecuador: combined approach using high-resolution radar images and in situ observations. Meteorology and Atmospheric Physics Vol 126(Issue 1-2), 13-29.
Kühnlein, M.; Appelhans, T.; Thies, B. & Nauss, T. (2014): Improving the accuracy of rainfall rates from optical satellite sensors with machine learning — A random forests-based approach applied to MSG SEVIRI. Remote Sensing of Environment 141, 129–143.
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DOI: 10.1016/j.rse.2013.10.026
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Abstract:
Abstract:
The present study aims to investigate the potential of the random forests ensemble classification and regression technique to improve rainfall rate assignment during day, night and twilight (resulting in 24-hour precipitation estimates) based on cloud physical properties retrieved from Meteosat Second Generation (MSG) Spinning Enhanced Visible and InfraRed Imager (SEVIRI) data.
Random forests (RF) models contain a combination of characteristics that make them well suited for its application in precipitation remote sensing. One of the key advantages is the ability to capture non-linear association of patterns between predictors and response which becomes important when dealing with complex non-linear events like precipitation. Due to the deficiencies of existing optical rainfall retrievals, the focus of this study is on assigning rainfall rates to precipitating cloud areas in connection with extra-tropical cyclones in mid-latitudes including both convective and advective-stratiform precipitating cloud areas. Hence, the rainfall rates are assigned to rain areas previously identified and classified according to the precipitation formation processes. As predictor variables water vapor-IR differences and IR cloud top temperature are used to incorporate information on cloud top height. ?T8.7–10.8 and ?T10.8–12.1 are considered to supply information about the cloud phase. Furthermore, spectral SEVIRI channels (VIS0.6, VIS0.8, NIR1.6) and cloud properties (cloud effective radius, cloud optical thickness) are used to include information about the cloud water path during daytime, while suitable combinations of temperature differences (?T3.9–10.8, ?T3.9–7.3) are considered during night-time.
The development of the rainfall rate retrieval technique is realised in three steps. First, an extensive tuning study is carried out to customise each of the RF models. The daytime, night-time and twilight precipitation events have to be treated separately due to differing information content about the cloud properties between the different times of day. Secondly, the RF models are trained using the optimum values for the number of trees and number of randomly chosen predictor variables found in the tuning study. Finally, the final RF models are used to predict rainfall rates using an independent validation data set and the results are validated against co-located rainfall rates observed by a ground radar network. To train and validate the model, the radar-based RADOLAN RW product from the German Weather Service (DWD) is used which provides area-wide gauge-adjusted hourly precipitation information.
Regarding the overall performance, as indicated by the coefficient of determination (Rsq), hourly rainfall rates show already a good correlation with Rsq = 0.5 (day and night) and Rsq = 0.48 (twilight) between the satellite and radar based observations. Higher temporal aggregation leads to better agreement. Rsq rises to 0.78 (day), 0.77 (night) and 0.75 (twilight) for 8-h interval. By comparing day, night and twilight performance it becomes evident that daytime precipitation is generally predicted best by the model. Twilight and night-time predictions are generally less accurate but only by a small margin. This may due to the smaller number of predictor variables during twilight and night-time conditions as well as less favourable radiative transfer conditions to obtain the cloud parameters during these periods.
However, the results show that with the newly developed method it is possible to assign rainfall rates with good accuracy even on an hourly basis. Furthermore, the rainfall rates can be assigned during day, night and twilight conditions which enables the estimation of rainfall rates 24 h day.
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Keywords: |
MSG-SEVIRI |
rainfall retrieval |
Rainfall rate |
Random forests |
Maschine learning |
Geostationary satellites |
Optical sensors |
Wagemann, J.; Thies, B.; Rollenbeck, R.; Peters, T. & Bendix, J. (2014): Regionalization of wind speed data to analyse tree-line wind conditions in the eastern Andes of southern Ecuador. Erdkunde 69(1), 3-19.
Lehnert, L.; Meyer, H.; Meyer, N.; Reudenbach, C. & Bendix, J. (2014): A hyperspectral indicator system for rangeland degradation on the Tibetan Plateau: A case study towards spaceborne monitoring. Ecological Indicators 39, 54-64.
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DOI: 10.1016/j.ecolind.2013.12.005
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Abstract:
Abstract:
The Tibetan Plateau suffers from progressive degradation caused by over-grazing due to improper live-
stock management, global climate change and herbivory from small mammals. Therefore, a robust
indicator system for rangeland degradation has to be developed and tested. This paper investigates local
patterns of degradation at two sites (Lake Namco and Mt. Kailash) in Xizang province (China) that are cov-
ered by vegetation types typical of a large portion of the plateau. The suitability of a two-indicator system
is analysed using hyperspectral field measurements, and its transferability to spaceborne data is tested.
The indicators are (1) land-cover fractions derived from linear spectral unmixing and (2) chlorophyll
content as a proxy for nutrient and water availability calculated using hyperspectral vegetation indices
and partial least squares regression. Because cattle remain near settlements overnight in the local semi-
nomadic pastoral system, it can be expected that grazing intensity is highest near the settlement and
declines with increasing distance. Therefore, we tested the effect of distance on both indicators using a
Spearman correlation analysis. The predicted chlorophyll content and land cover fractions of the indica-
tor system were in good agreement with field observations (correlation coefficients between 0.70 and
0.98). High correlations between distance from settlements and land-cover fractions at both study sites
demonstrated that the land-cover fraction is a reliable indicator for degradation. A positive correlation
between distance from settlements and photosynthetically active vegetation (PV) revealed over-grazing
patterns at the first site. Furthermore, the chlorophyll indicator was proven suitable because chlorophyll
concentration declined with increasing distance from settlements. This underlines the over-grazing pat-
tern because cattle excrement was the only external source of nutrients in the ecosystem and it was
positively correlated with grazing intensity. However, at the second site, we found a significant positive
effect of distance on the amount of photosynthetically non-active vegetation; no effect of distance on PV
and chlorophyll content was found. Therefore, no evidence of pasture degradation was detected at the
second site. Regarding the potential use of satellite data for degradation monitoring, we found that (1) the
land-cover indicator derived from multispectral data was more robust than using noise-filtered hyper-
spectral information and (2) the chlorophyll amount indicator was estimated from simulated EnMAP
data with low error rates. Because the proposed two-indicator system can be derived from multi- and
hyperspectral satellite data and combines site conditions and local plant cover, it provides a time-saving
and robust method to measure pasture degradation across large areas, assuming that respective satellite
data are available.
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Keywords: |
remote sensing |
Tibetan Plateau |
Pasture degradation |
Partial least square regression |
field spectrometry |
Linear spectral unmixing |
EnMAP |
Wilcke, W.; Leimer, S.; Peters, T.; Emck, P.; Rollenbeck, R.; Trachte, K.; Valarezo, C. & Bendix, J. (2013): The nitrogen cycle of tropical montane forest in Ecuador turns inorganic under environmental change. Global Biogeochemical Cycles 27(4), 1194-1204.
Lehnert, L.; Bässler, C.; Brandl, R.; Burton, P.J. & Müller, J. (2013): Conservation value of forests attacked by bark beetles: Highest number of indicator species is found in early successional stages. Journal for Nature Conservation 21, 97-104.
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DOI: 10.1016/j.jnc.2012.11.003
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Abstract:
Abstract:
Heavy natural disturbance in large protected areas of former commercial forests increasingly evokes
European parliaments to call for management intervention because a loss of habitats and species is
feared. In contrast, natural early successional habitats have recently been recognised as important for
conservation. Current knowledge in this field mostly results from studies dealing only with selected
taxa. Here we analyse the success of species across 24 lineages of three kingdoms in the Bavarian Forest
National Park (Germany) after 15 years of a European spruce bark beetle (Ips typographus L.) outbreak
that led to rapid canopy opening. Using indicator species analysis, we found 257 species with a significant
preference for open forests and 149 species with a preference for closed forests, but only 82 species with
a preference for the stand conditions transitional between open and closed forests. The large number
of species with a preference for open forests across lineages supports the role of this bark beetle as
a keystone species for a broad array of species. The slowdown of the outbreak after 15 years in the
core zone of the national park resulted in less than half of the area being affected, due to variability in
stand ages and tree species mixtures. Our case study is representative of the tree species composition
and size of many large protected montane areas in Central European countries and illustrates that (1)
natural disturbances increase biodiversity in formerly managed forests and (2) a montane protected area
spanning 10,000 ha of low range mountains is likely sufficient to allow natural disturbances without a
biased loss of closed-forest species.
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Keywords: |
peer reviewed |
Makowski Giannoni, S.; Rollenbeck, R.; Fabian, P. & Bendix, J. (2013): Complex topography influences atmospheric nitrate deposition in a neotropical mountain rainforest. Atmospheric Environment 79, 385–394.
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DOI: 10.1016/j.atmosenv.2013.06.023
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Abstract:
Abstract:
Future increase of atmospheric nitrogen deposition in tropical regions is expected to have negative impacts on forests ecosystems and related biogeochemical processes. In tropical mountain forests topography causes complex streamflow and rainfall patterns, governing the atmospheric transport of pollutants and the intensity and spatial variability of deposition. The main goal of the current study is to link spatio-temporal patterns of upwind nitrogen emissions and nitrate deposition in the San Francisco Valley (eastern Andes of southern Ecuador) at different altitudinal levels. The work is based on Scanning Imaging Absorption SpectroMeter for Atmospheric CHartographY (SCIAMACHY) retrieved-NO2 concentrations, NOx biomass burning emissions from the Global Fire Emissions Database (GFEDv3), and regional vehicle emissions inventory (SA-INV) for urban emissions in South America. The emission data is used as input for lagrangian atmospheric backward trajectory modeling (FLEXTRA) to model the transport to the study area. The results show that NO3?NO3? concentrations in occult precipitation samples are significantly correlated to long-range atmospheric secondary nitrogen transport at the highest meteorological stations (MSs) only, whereas for NO3?NO3? concentrations in rain samples this correlation is more pronounced at the lower MSs. We conclude that ion concentrations in occult precipitation at the uppermost MSs are mainly linked to distant emission sources via the synoptic circulation impinging the more exposed higher sites. Lower correlations close to the valley bottom are due to a lower occult precipitation frequency and point to a contamination of the samples by local pollution sources not captured by the used emission data sources.
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Keywords: |
Andes |
atmospheric deposition |
source-receptor model |
altitudinal gradient |
nitrate |
Meyer, H.; Lehnert, L.; Wang, Y.; Reudenbach, C. & Bendix, J., Measuring pasture degradation on the Qinghai-Tibet Plateau using hyperspectral dissimilarities and indices(Proc. SPIE, 2013).