Bibliografie tematiche / Terrestrial ecology

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Letteratura scientifica selezionata sul tema "Terrestrial ecology"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 6 settembre 2023

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Articoli di riviste sul tema "Terrestrial ecology"

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Harper, J. L., F. S. Chapin, J. Ehleringer, S. Ulfstrand e E. O. Wilson. "Ecology Institute Prizes 1990 in the field of Terrestrial Ecology". Archiv für Hydrobiologie 119, n. 1 (20 luglio 1990): 120. http://dx.doi.org/10.1127/archiv-hydrobiol/119/1990/120.

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Agren, Goran I., e Folke O. Andersson. "Terrestrial Ecosystem Ecology". Forestry Chronicle 88, n. 02 (aprile 2012): 214. http://dx.doi.org/10.5558/tfc2012-041.

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Rosentreter, Roger, M. G. Barbour, J. H. Burk e W. D. Pitts. "Terrestrial Plant Ecology". Journal of Range Management 41, n. 3 (maggio 1988): 272. http://dx.doi.org/10.2307/3899191.

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Baskin, Carol C., Michael G. Barbour, Jack H. Burk e Wanna D. Pitts. "Terrestrial Plant Ecology, Second Edition." Bulletin of the Torrey Botanical Club 115, n. 1 (gennaio 1988): 62. http://dx.doi.org/10.2307/2996572.

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Morris, J., T. C. E. Wells e J. H. Willems. "Population Ecology of Terrestrial Orchids." Journal of Ecology 81, n. 1 (marzo 1993): 202. http://dx.doi.org/10.2307/2261246.

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Cohen, Warren B., e Christopher O. Justice. "Validating MODIS Terrestrial Ecology Products". Remote Sensing of Environment 70, n. 1 (ottobre 1999): 1–3. http://dx.doi.org/10.1016/s0034-4257(99)00053-x.

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Stace, C. A. "Population ecology of terrestrial orchids". Biological Conservation 64, n. 2 (1993): 171. http://dx.doi.org/10.1016/0006-3207(93)90656-l.

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Batzer, Darold P., e Haitao Wu. "Ecology of Terrestrial Arthropods in Freshwater Wetlands". Annual Review of Entomology 65, n. 1 (7 gennaio 2020): 101–19. http://dx.doi.org/10.1146/annurev-ento-011019-024902.

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The terrestrial arthropod fauna of wetlands has been largely ignored by scientists compared to other ecological elements, yet these organisms are among the most important influences on the ecology of these systems, with the vast majority of the biodiversity in wetlands found among the terrestrial arthropods. Wetlands present a range of habitat for terrestrial arthropods, with unique faunas being associated with soils and ground litter, living-plant substrates, and peatlands. Myriapoda, Araneae, Collembola, Carabidae, Formicidae, and assorted herbivorous Coleoptera and Lepidoptera are the terrestrial arthropod groups that most influence the ecology of wetlands. Despite their success, most terrestrial arthropods possess fairly rudimentary adaptations for life in wetlands, with most simply moving to higher ground or up vegetation during floods, although some species can tolerate immersion. Many terrestrial arthropods are environmentally sensitive and show considerable promise as bioindicators of wetland ecological conditions.
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Dighton, John. "Fungal ecology in research institutes: Institute of Terrestrial Ecology". Mycologist 2, n. 4 (ottobre 1988): 183. http://dx.doi.org/10.1016/s0269-915x(88)80058-2.

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Wong, Mark K. L., Benoit Guénard e Owen T. Lewis. "Trait‐based ecology of terrestrial arthropods". Biological Reviews 94, n. 3 (13 dicembre 2018): 999–1022. http://dx.doi.org/10.1111/brv.12488.

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Tesi sul tema "Terrestrial ecology"

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Gelfgren, Maria. "The importance of litter for interactions between terrestrial plants and invertebrates". Thesis, Umeå University, Department of Ecology and Environmental Sciences, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-34761.

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According to the exploitation ecosystem hypothesis (EEH), terrestrial ecosystems are characterized by well defined trophic levels and strong trophic interactions with community level tropic cascades. In unproductive terrestrial habitats as tundra heaths, the energy shunt from litter and apparent competition between herbivores and detritivores are expected to be important for the structure and dynamics of the invertebrate community. The aim of this study was to test this hypothesis by investigating if plant litter accumulation was affecting the invertebrate community on a nutrient-poor tundra heath. The study was performed during one summer on the highland part of Joatka research area, in the north of Norway.

The experimental area included 16 plots (100 m2 each), of which 12 had been littermanipulated. On four plots the amount of litter was increased by 100 %, on four by 200 % and on four by 400 %. Four plots were untreated and used as control plots. Invertebrates were collected by emergence traps (which cover an area of 1 m2), one trap on each plot and one pitfall trap inside each emergence trap. During the study period, traps were emptied and moved twice, resulting in three sampling periods. The invertebrates collected were counted and their length was measured, than all invertebrates were sorted into taxa and trophic guilds. During the study period, herbivore grazing damage was investigated on all 16 experimental plots, signs of herbivores on leaves of vascular plants in an area covering 3 m2 per plot were noted, for every leaf with signs of herbivory the percentage of leaf area removed was estimated.

Plant biomass and plant species composition were estimated in all experimental plots by harvesting above-ground plant parts. In each plot, two squares were randomly chosen and all biomass in this square was collected. Plant biomass was sorted in to following groups: dwarf birch, billberry, Salix herbacea, Salix spp, graminoids, herbs, lichens, mosses and dwarf shrub. Before weighing the plant material, it was stored in paper bags at room temperature and then dried for 48 h at 40°C. In order to detect fertilisation effects, all bilberry shoots that had been produced during the actual summer were separately weighted when analyzing the plant biomass.

The result showed that the invertebrate community in this area is dominated by carnivores while detritivores, parasitoids and herbivores are quite rare, this was in accordance with previous studies made in the area. Litter manipulation did not create any significant variation in the community structure, but there was a slight tendency that carnivore biomass increased and biomass of herbivores decreased when litter was added to the system. In contrary to this,

gracing activity especially on dwarf willow (Salix herbacea) increased in plots were 100 % and 200 % more litter was added. There is a positive correlation between biomass of herbivores and detritivores but the reason for this seems unclear. No fertilisation effect was detected in litter manipulated plots. The structure and dynamics of the actual community could not be described by the food web theory EEH and energy shunt from litter and apparent competition between herbivores and detritivores. It seems to be several complicating factors to take into consideration when describing this community.

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Josefsson, Jonas. "The Many Phases of Phenology : Geographic and Inter-Specific Differences in Phenological Between-Year Variation". Thesis, Uppsala universitet, Institutionen för biologisk grundutbildning, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-154493.

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As climate-driven changes in phenology are becoming more apparent, the need to quantify these changes is increasing. An important challenge in detecting phenological changes is that between-year variation in phenology is large. Between-year variation determines the statistical power of comparisons between contemporary and historical observations. For 44 plant species with different distributions across Sweden, geographicand inter-specific differences in between-year variation in different phenophases (budburst, flowering, ripe fruits, and leaf fall) was studied. I also modeled and evaluated theresponse of bud burst, and flowering, to temperature using three different temperature sum models over a latitudinal gradient. The data used was a sub-sample from a dataset collected by a Swedish nation-wide phenology network between 1873-1917. In agreement with previous studies, I show that early spring phases have a higher variability than phases occurring later in the season. However, the relation between onset and variation was not monotonically decreasing. In the geographical analyses, a unimodal relation between between-year variation and latitude was found, that is, the between-year variation decreased along the latitudinal gradient for early- and late season events, while it increased over latitude for summer events. These patterns are, to a great extent, reflections of patterns in air temperatures which is discussed using meteorological data from adjacent climate stations. Models were evaluated using Akaike's Information Criterion, and in 60% of all fits, the Spring warming CF2 model (SWCF2; the model with the least number of parameters) was selected as the best model to describe the data. For Sorbus aucuparia bud burst, in the two parameter model SWCF2, both parameters (threshold temperature andtemperature sum) correlated with latitude. However, future analysis using more locations and a wider span of species will be needed to understand the generality in these findings. In conclusion, future efforts to detect and quantify phenological changes need to consider differences in between-year phenological variability along geographical gradients and among species with different phenology.
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Hayward, Scott Alexander Lee. "The functional ecology of polar terrestrial invertebrates". Thesis, University of Birmingham, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.396115.

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Boenke, Morgan. "Terrestrial habitat and ecology of Fowler's toads (Anaxyrus Fowleri)". Thesis, McGill University, 2012. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=106500.

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Habitat loss is the primary driver of global amphibian declines and thus preserving habitat is our best hope for preserving species at risk. The habitat needs of amphibians are complex due to terrestrial and aquatic requirements throughout their life history. Many pond breeding amphibians spend the majority of their life cycle within terrestrial environments and thus terrestrial habitats are critical to their persistence. Cryptic and fossorial behavior makes observations of amphibians in terrestrial habitats difficult. Our knowledge of the terrestrial ecology of amphibians is therefore incredibly limited. I review the literature on habitat loss, amphibian declines and terrestrial habitat use by amphibians with specific attention to refuge seeking behavior (CHAPTER ONE). I used radio-tracking to investigate the behavior of Fowler's toads (Bufo fowleri) in the beach dune ecosystem of Long Point, Ontario. Refuge seeking behavior by these animals is associated with specific components of the dunes and is predictable based on elevation, slope and distance from the lakeshore. Refuge sites placement is not random, but instead represent a trade-off between risk and reward (CHAPTER TWO). Philopatry in Fowler's Toads is driven by fidelity to refugia. These locations are used repeatedly on consecutive days, and even when they are not new sites within 10 meters of the previous day's refuge are most often chosen. Occasionally, however toads relocate their refuge sites as much as 700 m overnight (CHAPTER THREE). This contributes to the wide variation in the home range sizes of Fowler's Toads, as does method of calculation and search effort, while there is little apparent influence of intrinsic biological factors. The effect of search effort on range size is reduced in robust location data sets with more than thirty locations for each animal. A minimum home range estimate of 3517m2 is suggested under the caveat that range sizes may have no hard upper limit (CHAPTER FOUR).
La perte d'habitat est le principal facteur responsable du déclin des amphibiens à l'échelle mondiale. La préservation de leur habitat représente donc le meilleur espoir pour la conservation de ces espèces en péril. Les amphibiens ont des besoins en complexes en matière d'habitat, car leur cycle de vie comprend des exigences terrestres ainsi qu'aquatiques. Plusieurs amphibiens qui se reproduisent dans des étangs passent la majorité de leur vie dans des environnements terrestres, ces derniers sont donc essentiels à leur résilience. Leurs comportements fouisseur et cryptique rendent les amphibiens difficiles à observer dans leurs habitats terrestres. En conséquence, notre connaissance de l'écologie terrestre des amphibiens est très limitée. Je passe en revue la littérature scientifique sur la perte d'habitat, le déclin des amphibiens et l'utilisation d'habitats terrestres par les amphibiens avec une attention particulière à la recherche de refuges (CHAPITRE UN). J'ai utilisé le pistage radioélectrique pour étudier le comportement des crapauds de Fowler (Bufo fowleri) dans l'écosystème de dunes de la plage de Long Point, en Ontario. La recherche de refuge par ces animaux est associée à des composants spécifiques des dunes et est prévisible selon l'élévation, la pente et la distance du bord du lac. L'emplacement du refuge n'est pas aléatoire, mais représente plutôt un compromis entre risque et récompense (CHAPITRE DEUX). La philopatrie chez les crapauds de Fowler est due à la fidélité aux refuges. Ces endroits sont utilisés de façon répétée sur plusieurs jours consécutifs ; même lorsqu'ils sont abandonnés, les crapauds choisissent le plus souvent un nouveau site à moins de 10 mètres du refuge de la journée précédente. A l'occasion, cependant, les crapauds peuvent délocaliser leurs sites de refuge jusqu'à 700 m d'une nuit à l'autre (CHAPITRE TROIS). Cela contribue à la grande variation dans le calcul de la taille du territoire des crapauds de Fowler. Les méthodes d'évaluation et l'effort de recherche contribuent aussi à cette variation, alors qu'il y a peu d'influence apparente des facteurs biologiques intrinsèques. De plus, l'effet de l'effort de recherche sur la taille du territoire est réduit lorsque les données de localisation sont robustes et comprennent plus de trente sites par animal. Une estimation de taille minimale du territoire des crapauds de Fowler de 3517 m2 est suggérée ici, sous la réserve que l'aire totale de répartition peut ne pas avoir de limite supérieure (CHAPITRE QUATRE).
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Larke-Meji, Nasmille Liceth. "Molecular ecology of isoprene degraders in the terrestrial environment". Thesis, University of East Anglia, 2018. https://ueaeprints.uea.ac.uk/69551/.

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Isoprene (2-methyl 1, 3-butadiene) is the most abundant non-methane BVOC (biogenic volatile organic compound) released into the atmosphere. Terrestrial plants are the primary producers of isoprene and release 500-750 million tonnes of isoprene per year, to protect themselves from abiotic environmental stresses such as heat and reactive oxygen species. Many studies have explored isoprene production but very little is known about consumption of isoprene by microbes. Cleveland and Yavitt in 1998 (Cleveland and Yavitt 1998), and more recently Khawand et al. 2016 (Khawand et al. 2016), demonstrated that microbes isolated from terrestrial environments are capable of using isoprene as sole carbon and energy source. By applying cultivation-dependent and cultivation-independent techniques, such as DNA Stable Isotope Probing (Dumont and Murrell 2005), my objective was to determine the distribution, diversity and activity of isoprene-degrading bacteria in the terrestrial environment. Isoprene-degrading microbes were enriched by adding 13 to 50 ppm isoprene to microcosms using topsoil from a willow tree and topsoil/leaves from an oil palm tree. DNA stable isotope probing, using 13C-labelled isoprene, assisted in revealing the diversity of active isoprene degraders by labelling organisms that incorporated the isoprene, directly or indirectly. PCR retrieval of partial 16S rRNA genes from this DNA revealed labelled members of the genera Ramlibacter, Variovorax, Rhodococcus and Methylibium, for willow soil, and Rhodococcus, Gordonia, Aquabacterium, Aquincola, Methylobacterium and members from the Sphingomonadaceae family, for the oil palm tree. Using cultivation-dependent methods I isolated seven phylogenetically different isoprene-utilizing bacteria of the genera Rhodococcus, Nocardioides and Variovorax from willow soil environment; another four phylogenetically different bacteria belonging to the genera Gordonia, Sphingopyxis and Sphingobacterium from the oil palm tree. Results suggest Rhodococcus is a cosmopolitan isoprene-degrader, present in a variety of environments, and different isoprene-degrading bacteria were found associated to willow and oil palm trees.
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Jones, David Thomas. "Biological monitoring of metal pollution in terrestrial ecosystems". Thesis, University of Reading, 1991. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.315805.

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Jumeau, Philippe J. A. M. "Arthropod predation in a simple Antarctic terrestrial community". Thesis, University of York, 1990. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.277219.

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Tuck, Joanne Michelle. "Effects of spatial heterogeneity on the ecology of terrestrial isopods". Thesis, University of East Anglia, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.368185.

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Hustad, Vincent P. "Terrestrial macrofungi of old-growth prairie groves /". View online, 2008. http://repository.eiu.edu/theses/docs/32211131464739.pdf.

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Wahlberg, Sonja. "Kan herbivorer begränsa fröetablering av fjällbjörk, tall, gran och sibirisk lärk i norra Fennoskandien?" Thesis, Umeå University, Department of Ecology and Environmental Sciences, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-31355.

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Libri sul tema "Terrestrial ecology"

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G, Barbour Michael, a cura di. Terrestrial plant ecology. 3a ed. Menlo Park, Calif: Addison Wesley Longman, 1999.

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1942-, Burk Jack H., e Pitts Wanna D. 1932-, a cura di. Terrestrial plant ecology. 2a ed. Menlo Park, Calif: Benjamin/Cummings Pub. Co., 1987.

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Chapin, F. Stuart, Pamela A. Matson e Peter M. Vitousek. Principles of Terrestrial Ecosystem Ecology. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-9504-9.

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Chapin, F. Stuart, Pamela A. Matson e Harold A. Mooney. Principles of Terrestrial Ecosystem Ecology. New York, NY: Springer New York, 2002. http://dx.doi.org/10.1007/b97397.

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E, Wells T. C., Willems J. H e International Orchid Symposium (1990 : South Limburg, Netherlands), a cura di. Population ecology of terrestrial orchids. The Hague: SPB Academic Publishing, 1991.

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Matson, P. A. (Pamela A.) e Vitousek Peter Morrison, a cura di. Principles of terrestrial ecosystem ecology. 2a ed. New York: Springer, 2011.

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S, Ambasht R., e Ambasht Navin K. 1967-, a cura di. Modern trends in applied terrestrial ecology. New York: Kluwer Academic/Plenum Publishers, 2002.

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Lakicevic, Milena, Nicholas Povak e Keith M. Reynolds. Introduction to R for Terrestrial Ecology. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-27603-4.

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Ambasht, R. S., e Navin K. Ambasht, a cura di. Modern Trends in Applied Terrestrial Ecology. Boston, MA: Springer US, 2002. http://dx.doi.org/10.1007/978-1-4615-0223-4.

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1933-, Andersson Folke, a cura di. Terrestrial ecosystem ecology: Principles and applications. Cambridgey: Cambridge University Press, 2011.

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Capitoli di libri sul tema "Terrestrial ecology"

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South, A. "Ecology". In Terrestrial Slugs, 242–97. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2380-8_10.

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Dix, Neville J., e John Webster. "Terrestrial Macrofungi". In Fungal Ecology, 341–97. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0693-1_13.

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Karasov, William. "Terrestrial Vertebrates". In Metabolic Ecology, 212–24. Chichester, UK: John Wiley & Sons, Ltd, 2012. http://dx.doi.org/10.1002/9781119968535.ch17.

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Stonehouse, B. "Terrestrial Environments". In Polar Ecology, 62–105. Boston, MA: Springer US, 1989. http://dx.doi.org/10.1007/978-1-4757-1260-5_3.

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Valladares, Fernando. "Ecology". In Terrestrial Ecosystems and Biodiversity, 289–92. Second edition. | Boca Raton: CRC Press, [2020] | Revised edition of: Encyclopedia of natural resources. [2014].: CRC Press, 2020. http://dx.doi.org/10.1201/9780429445651-36.

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Slingsby, David, e Ceridwen Cook. "Sampling Terrestrial Animals". In Practical Ecology, 89–112. London: Macmillan Education UK, 1986. http://dx.doi.org/10.1007/978-1-349-08226-1_6.

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Archibold, O. W. "Terrestrial wetlands". In Ecology of World Vegetation, 319–53. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0009-0_10.

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Hungund, Basavaraj S., Savitha S. Desai, Kartik C. Kamath e Gururaj B. Tennalli. "Terrestrial Ecology of Actinobacteria". In Actinobacteria, 39–54. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-3353-9_3.

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Slingsby, David, e Ceridwen Cook. "Introduction: Studying Particular Terrestrial Habitats". In Practical Ecology, 157–70. London: Macmillan Education UK, 1986. http://dx.doi.org/10.1007/978-1-349-08226-1_9.

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Schulze, Ernst-Detlef, Erwin Beck, Nina Buchmann, Stephan Clemens, Klaus Müller-Hohenstein e Michael Scherer-Lorenzen. "Approaches to Study Terrestrial Ecosystems". In Plant Ecology, 481–511. Berlin, Heidelberg: Springer Berlin Heidelberg, 2018. http://dx.doi.org/10.1007/978-3-662-56233-8_14.

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Atti di convegni sul tema "Terrestrial ecology"

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Hamlin, L., R. O. Green, P. Mouroulis, M. Eastwood, D. Wilson, M. Dudik e C. Paine. "Imaging spectrometer science measurements for Terrestrial Ecology: AVIRIS and new developments". In 2011 IEEE Aerospace Conference. IEEE, 2011. http://dx.doi.org/10.1109/aero.2011.5747395.

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Barbosa, Carla, Javier Tamayo-Leiva, Beatriz Diez, Oscar Salgado, Jaime Alcorta e Diego Morata. "Effects of hydrogeochemistry on the microbial ecology of terrestrial hot springs". In Goldschmidt2022. France: European Association of Geochemistry, 2022. http://dx.doi.org/10.46427/gold2022.9170.

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Remesicova, Erika. "TERRESTRIAL ISOPODS OF THE MINING LANDSCAPE (DOLNI SUCHA, CZECH REPUBLIC)". In 14th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION. Stef92 Technology, 2014. http://dx.doi.org/10.5593/sgem2014/b52/s20.088.

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Grigorescu, Ines. "ASSESSING INVASIVE TERRESTRIAL PLANT SPECIES IN THE MURES FLOODPLAIN NATURAL PARK. ROMANIA". In 14th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION. Stef92 Technology, 2014. http://dx.doi.org/10.5593/sgem2014/b51/s20.008.

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Redondo-Gómez, Daniel, M. Martina Quaggiotto, David M. Bailey, Sergio Eguía, Zebensui Morales-Reyes, Beatriz de las Nieves López-Pastor, Daniel Martín-Vega et al. "Marine and terrestrial scavenging on fish and gull carcasses on a Mediterranean island". In 1st International Electronic Conference on Biological Diversity, Ecology and Evolution. Basel, Switzerland: MDPI, 2021. http://dx.doi.org/10.3390/bdee2021-09463.

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Akitsu, Tomoko, Koji Kajiwara, Kaoru Tachiiri, Hideki Kobayashi, Kazuho Matsumoto, Toshiyuki Kobayashi, Kenlo Nishida Nasahara et al. "Validating GCOM-C Terrestrial Ecology Products: How Should In-Situ Observation Be Performed at Satellite Scale?" In IGARSS 2019 - 2019 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2019. http://dx.doi.org/10.1109/igarss.2019.8897899.

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Dumitrascu, Monica. "ASSESSING INVASIVE TERRESTRIAL PLAN SPECIES AMORPHA FRUTICOSA IN THREE WETLAND AREAS IN ROMANIA: DANUBE DELTA BIOSPHERE RESERVE, COMANA NATURAL PARK AND MURES FLOODPLAIN NATURAL PARK". In 13th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION. Stef92 Technology, 2013. http://dx.doi.org/10.5593/sgem2013/be5.v1/s20.016.

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Brunetti, Claudia, Henk Siepel, Pietro Paolo Fanciulli, Francesco Nardi e Antonio Carapelli. "Investigating the Diversity of the Terrestrial Invertebrate Fauna of Antarctica: A Closer Look at the Stereotydeus (Acari: Prostigmata) Genus <sup>†</sup>". In 1st International Electronic Conference on Biological Diversity, Ecology and Evolution. Basel, Switzerland: MDPI, 2021. http://dx.doi.org/10.3390/bdee2021-09405.

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Prepelita, Afanasie, e Tudor Trifan. "Terrestrial molluscs and paleoecology of prehistoric man living floor in the middle Nistru basin". In International symposium ”Functional ecology of animals” dedicated to the 70th anniversary from the birth of academician Ion Toderas. Institute of Zoology, Republic of Moldova, 2019. http://dx.doi.org/10.53937/9789975315975.57.

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Woolley, Charles, Kiersten Formoso, Alison Cribb, James Beech, Shannon Brophy, Paul J. Byrne, Victoria C. Cassady et al. "CONTEMPORANEOUS CHANGES IN TERRESTRIAL AND MARINE FUNCTIONAL ECOLOGY DURING ANCIENT AND MODERN MASS EXTINCTION EVENTS: AN ECOSPACE CUBE APPROACH". In GSA Connects 2021 in Portland, Oregon. Geological Society of America, 2021. http://dx.doi.org/10.1130/abs/2021am-365869.

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Rapporti di organizzazioni sul tema "Terrestrial ecology"

1

White, G. J. Microbial ecology of terrestrial Antarctica: Are microbial systems at risk from human activities? Office of Scientific and Technical Information (OSTI), agosto 1996. http://dx.doi.org/10.2172/379946.

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2

Bailey, Vanessa, Paul J. Hanson, Julie Jastrow, Margaret Torn e Daniel Stover. Data-Model Needs for Belowground Ecology. A Summary Report from the Terrestrial Ecosystem Science (TES) Mini-Workshop, May 8, 2014. Office of Scientific and Technical Information (OSTI), novembre 2014. http://dx.doi.org/10.2172/1471543.

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3

Sladen, W. E., R. J. H. Parker, P. D. Morse, S V Kokelj e S. L. Smith. Geomorphic feature inventory along the Dempster and Inuvik to Tuktoyaktuk highway corridor, Yukon and Northwest Territories. Natural Resources Canada/CMSS/Information Management, 2022. http://dx.doi.org/10.4095/329969.

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Abstract (sommario):
Thaw of permafrost and associated ground ice melt can reduce ground stability, modify terrain, and reconfigure drainage patterns affecting terrestrial and aquatic ecosystems and presenting challenges to northern infrastructure and societies. The integrity of ground-based transportation infrastructure is critical to northern communities. Geomorphic features can indicate ground ice presence and thaw susceptibility. This Geological Survey of Canada Open File presents the digital georeferenced database of landforms identified in continuous permafrost terrain using high-resolution satellite imagery. The database is for a 10 km-wide corridor centered on the Dempster and Inuvik-Tuktoyaktuk highways. This 875 km-long transect traverses a variety of geological and physiographic terrain types, including glaciated and non-glaciated terrain, in the northcentral Yukon and northwestern Northwest Territories, where variation in climate, relief, ecology, and disturbance have produced a variety of periglacial conditions. We identified geomorphic features in high-resolution (0.6 m) satellite imagery visualized in 3D, and digitized them in ArcGIS. We used custom Python scripts to populate the attributes for each geomorphic feature. A total of 8746 features were mapped by type and categorized within three main classes: hydrological (n = 1188), mass movement (n = 2435), and periglacial (n = 5123). Features were identified at 1:10 000 and mapped at 1:5000. This report presents the geospatial database in ESRI shapefile, Keyhole Markup Language (KML), and comma-delineated formats.
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