Einfluss von Klima und Topographie auf Struktur, Zusammensetzung und Dynamik eines tropischen Wolkenwaldes in Monteverde, Costa Rica / The Effect of Climate and Topography on Structure, Composition and Dynamics of a Tropical Cloud Forest in Monteverde, Costa Rica

Häger, Achim

27 April 2006

No description available.

570 Biowissenschaften

Biologie

Forest Sciences and Forest Ecology

Tropischer Wolkenwald

Monteverde

Costa Rica

Umweltgradienten

Hydrologie

Wolken- und Nebelniederschlag

Waldstruktur

Kronenraum

Epiphyten

Artenvielfalt

Walddynamik

Tropical Montane Cloud Forest

Monteverde

Costa Rica

environmental gradients

hydrology

cloud and fog interception

Forest structure

forest canopy

species diversity

forest dynamics

42.44 Pflanzengeographie

Pflanzenökologie

48.99 Land- und Forstwirtschaft

Mindre hackspettens (Dryobates minor) habitatanvändning i Karlstads kommun / Habitat use of the lesser spotted woodpecker (Dryobates minor) in the municipality of Karlstad, Sweden

Hultberg, Sarah

January 2022

Mindre hackspett (Dryobates minor) är en vanligen icke-migrerande fågel som är väldigt trogen till sitt hemrevir. Reviret bör vara minst 40 hektar och bestå av en dominerande andel lövträd samt innehålla död ved och grova träd. Studiens syfte var att undersöka den mindre hackspettens habitatanvändning i Karlstads kommun genom att bedöma antalet individer i förhållande till fyra ekologiska faktorer: mängd stående död ved och grova träd, trädskikt samt habitatstorlek. Data togs från en rapport från 2017 där en inventering hade utförts i 77 områden i Karlstads kommun. Rapporten registrerade antal mindre hackspettsindivider och flera ekologiska faktorer i varje område. Hypoteserna var att antalet individer skulle skilja sig i förhållande till: 1) mängden stående död ved, 2) mängden grova träd, 3) antal trädskikt, och 4) habitatstorlek. Resultaten visade att det fanns fler individer av mindre hackspett i områden med en riklig mängd stående död ved och grova träd jämfört med enstaka-och måttlig mängd. Områden med flera trädskikt resulterade även i ett högre antal individer jämfört med en-och två trädskikt. En positiv korrelation mellan habitatstorlek och frekvensen av individer noterades även. Den mindre hackspettens population minskar i Sverige och börjar närma sig att listas som sårbar på IUCN:s rödlista. Det innebär att förvaltare behöver ha ekologiska faktorer i åtanke vid bevaringsåtgärder. Utöver de välkända ekologiska faktorerna döda och stora träd i förhållande till mindre hackspett visade studien även att trädskikt är en viktig faktor att ha i åtanke. Dessutom var endast fem av de 77 habitatområdena i Karlstads kommun större än 40 hektar; vilket innebär att ett landskapsperspektiv är nödvändigt för att bevara konnektivitet mellan habitat, vilket är nödvändigt för en framgångsrik hackspettspopulation. / The lesser spotted woodpecker (Dryobates minor) is usually a nonmigratory bird with a high fidelity towards their home territory. The territory should be at least 40 hectares in size, consisting mostly of deciduous trees and containing dead wood and large-diameter trees. The purpose of this study was to explore the habitat use of the lesser spotted woodpecker in the municipality of Karlstad by assessing the number of individuals in relation to four ecological factors: the amount of standing dead wood and large trees, forest canopy layering and habitat patch size. Data was extracted from a 2017 report, where a field study was conducted in 77 areas in the municipality of Karlstad, Sweden. The report recorded the number of lesser spotted woodpecker individuals and several ecological factors in each area. The hypotheses were that the numbers of individuals would differ in relation to: 1) the amount of standing dead wood, 2) the amount of large trees, 3) forest canopy layering, and 4) habitat patch size. The results showed that there was a greater number of lesser spotted woodpecker individuals in areas with a rich amount of standing dead wood and large trees, versus low-or moderate amounts. Areas with a multiple forest canopy cover also resulted in greater numbers of individuals versus in single-or two-layer canopies. A positive correlation between habitat size and frequency of individuals was also noted. The lesser spotted woodpecker population in Sweden is declining and they are nearing vulnerable on the IUCN red list. This means that managers need to have ecological factors in mind when conducting conservation efforts for the species. In addition to the well-known factors of dead and large trees in relation to the lesser spotted woodpecker, this study also showed that forest canopy layering is an important factor to consider. Furthermore only five of 77 habitat patches in the municipality of Karlstad were larger than 40 hectares; thus, a landscape-level-perspective is required for maintaining connectivity among habitats, which is essential for a thriving woodpecker population.

lesser spotted woodpecker

dryobates minor

habitat use

dead wood

standing dead wood

large trees

forest canopy layering

municipality of karlstad

connectivity

preservation

conservation biology

mindre hackspett

dryobates minor

habitatanvändning

död ved

stående död ved

grova träd

trädskikt

karlstads kommun

konnektivitet

bevarande

naturvård

Biological Sciences

Biologiska vetenskaper

Other Biological Topics

Annan biologi

Comparison between high-resolution aerial imagery and lidar data classification of canopy and grass in the NESCO neighborhood, Indianapolis, Indiana

Ye, Nan

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Urban forestry is a very important element of urban structures that can improve the environment and life quality within the urban areas. Having an accurate classification of urban forests and grass areas would help improve focused urban tree planting and urban heat wave mitigation efforts. This research project will compare the use of high – resolution aerial imagery and LiDAR data when used to classify canopy and grass areas. The high – resolution image, with 1 – meter resolution, was captured by The National Agriculture Imagery Program (NAIP) on 6/6/2012. Its coordinate system is the North American Datum of 1983 (NAD83). The LiDAR data, with 1.0 – meter average post spacing, was captured by Indiana Statewide Imagery and LiDAR Program from 03/13/2011 to 04/30/2012.The study area is called the Near East Side Community Organization (NESCO) neighborhood. It is located on the east side of downtown Indianapolis, Indiana. Its boundaries are: 65 interstate, East Massachusetts Avenue, East 21st Street, North Emerson Avenue, and the rail road tracks on the south of the East Washington Street. This research will also perform the accuracy assessment based on the results of classifications using high – resolution aerial imagery and LiDAR data in order to determine and explain which method is more accurate to classify urban canopy and grass areas.

Eastside (Indianapolis, Ind.)

TREE MITIGATION STRATEGIES TO REDUCE THE EFFECT OF URBAN HEAT ISLANDS IN CENTER TOWNSHIP, IN

Rigg, Michelle C.

11 December 2012

Indiana University-Purdue University Indianapolis (IUPUI) / The purpose of this study was to identify urban heat island locations within Center Township, Indiana and to develop a model to determine areas of high social vulnerability. In addition, an urban heat island mitigation strategy was developed for socially vulnerable and highest temperature locations. Land surface temperature was estimated using Landsat ETM+ satellite imagery. Social vulnerability was estimated using principal components analysis and spatial analysis methods such as kernel density functions. These methods incorporate various socioeconomic variables, land surface temperature, and tree canopy cover. Tree canopy cover was extracted using Quickbird imagery among other techniques. Areas with high social vulnerability, high temperature and low tree canopy cover were analyzed and plantable spaces were assessed. The findings of this study will be shared with Keep Indianapolis Beautiful, Inc. so that they can inform their tree planting campaigns that seek to reduce the effects of urban heat islands on socially vulnerable populations.

Center (Marion County, Ind. : Township)

Urban heat island

Keep America Beautiful, Inc.

Urban renewal -- Indiana -- Indianapolis

Forest canopy ecology

Urban ecology (Sociology)

Shade trees

Sustainable architecture

Urban forestry

Geographic information systems

Predicting locations for urban tree planting

King, Steven M.

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / The purpose of this study was to locate the most suitable blocks to plant trees within Indianapolis, Indiana’s Near Eastside Community (NESCO). LiDAR data were utilized, with 1.0 meter average post spacing, captured by the Indiana Statewide Imagery and LiDAR Program from March 13, 2011 to April 30, 2012, to conduct a covertype classification and identify blocks that have low canopies, high impervious surfaces and high surface temperatures. Tree plantings in these blocks can help mitigate the effects of the urban heat island effect. Using 2010 U.S. Census demographic data and the principal component analysis, block groups with high social vulnerability were determined, and tree plantings in these locations could help reduce mortality from extreme heat events. This study also determined high and low priority plantable space in order to emphasize plantable spaces with the potential to shade buildings; this can reduce cooling costs and the urban heat island, and it can maximize the potential of each planted tree.

LiDAR

urban tree planting

social vulnerability

principal component analysis

Tree planting -- Indiana -- Indianapolis

Eastside (Indianapolis, Ind.)

Neighborhoods -- Indiana -- Indianapolis

Principal components analysis