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

Walddynamik in Mischwäldern des Nationalparks Hainich / Forest Dynamics and Species Interaction in a mixed broad-leaved Forest in the Nationalpark Hainich (Thuringia)

Frech, Annika

03 May 2006

No description available.

580 Pflanzen (Botanik)

WNA 250

Mathematics and Natural Science

Bestandesstruktur

Walddynamik

Nachbarschaft

Kroneninteraktion

Kronenforschung

Verjüngung

Dendroökologie

Buche

Fagus sylvatica

Esche

Fraxinus excelsior

Hainbuche

Carpinus betulus

Winterlinde

Tilia cordata

stand structure

forest dynamics

neighbourhood interference

canopy research

regeneration

dendroecology

tree ring analysis

beech

ash

hornmeam

lime

42.91

Dynamics of Forest Ecosystems Under Global Change: Applications of Artificial Intelligence in Mapping, Classification, and Projection

Akane Ota Abbasi (17123185)

10 October 2023

<p dir="ltr">Global forest ecosystems provide essential ecosystem services that contribute to water and climate regulation, food production, recreation, and raw materials. They also serve as crucial habitats for numerous terrestrial species of amphibians, birds, and mammals worldwide. However, recent decades have witnessed unprecedented changes in forest ecosystems due to climate change, shifts in species distribution patterns, increased planted forest areas, and various disturbances such as forest fires, insect infestations, and urbanization. These changes can have far-reaching impacts on ecological networks, human well-being, and the well-being of global forest ecosystems. To address these challenges, I present four studies to quantify forest dynamics through mapping, classification, and projection, using artificial intelligence tools in combination with a vast amount of training data. (I) I present a spatially continuous map of planted forest distribution across East Asia, produced by integrating multiple sources of planted and natural forest data. I found that China contributed 87% of the total planted forest areas in East Asia, most of which are located in the lowland tropical/subtropical regions and Sichuan Basin. I also estimated the dominant genus in each planted forest location. (II) I used continent-wide forest inventory data to compare the range shifts of forest types and their constituent tree species in North America in the past 50 years. I found that forest types shifted more than three times as fast as the average of their constituent tree species. This marked difference was attributable to a predominant positive covariance between tree species ranges and the change of species relative abundance. (III) Based on individual-level field surveys of trees and breeding birds across North America, I characterized New World wood-warbler (<i>Parulidae</i>) species richness and its potential drivers. I identified forest type as the most powerful predictor of New World wood-warbler species richness, which adds valuable evidence to the ongoing physiognomy versus composition debate among ornithologists. (IV) In the appendix, I utilized continent-wide forest inventory data from North America and South America and the combination of supervised and unsupervised machine learning algorithms to produce the first data-driven map of forest types in the Americas. I revealed the distribution of forest types, which are useful for cost-effective forest and biodiversity management and planning. Taken together, these studies provide insight into the dynamics of forest ecosystems at a large geographic scale and have implications for effective decision-making in conservation, management, and global restoration programs in the midst of ongoing global change.</p>

Forest biodiversity

Forest ecosystems

Modelling and simulation

Deep learning

Neural networks

Semi- and unsupervised learning

forest dynamics modeling

Global Change

Climate Change

Machine Learning

Biodiversity

Forest Ecology

forest ecosystem modeling

Planted Forests

Forest type classification

Species Distribution

Deep Learning

Forest Inventory & Analysis Program

Forest Inventory

Parulidae

Species Richness

Habitat physiognomy

Habitat Heterogeneity

Habitat Composition

Markowitz portfolio selection