Modelling space-use and habitat preference from wildlife telemetry data

Aarts, Geert

January 2007

Management and conservation of populations of animals requires information on where they are, why they are there, and where else they could be. These objectives are typically approached by collecting data on the animals’ use of space, relating these to prevailing environmental conditions and employing these relations to predict usage at other geographical regions. Technical advances in wildlife telemetry have accomplished manifold increases in the amount and quality of available data, creating the need for a statistical framework that can use them to make population-level inferences for habitat preference and space-use. This has been slow-in-coming because wildlife telemetry data are, by definition, spatio-temporally autocorrelated, unbalanced, presence-only observations of behaviorally complex animals, responding to a multitude of cross-correlated environmental variables. I review the evolution of techniques for the analysis of space-use and habitat preference, from simple hypothesis tests to modern modeling techniques and outline the essential features of a framework that emerges naturally from these foundations. Within this framework, I discuss eight challenges, inherent in the spatial analysis of telemetry data and, for each, I propose solutions that can work in tandem. Specifically, I propose a logistic, mixed-effects approach that uses generalized additive transformations of the environmental covariates and is fitted to a response data-set comprising the telemetry and simulated observations, under a case-control design. I apply this framework to non-trivial case-studies using data from satellite-tagged grey seals (Halichoerus grypus) foraging off the east and west coast of Scotland, and northern gannets (Morus Bassanus) from Bass Rock. I find that sea bottom depth and sediment type explain little of the variation in gannet usage, but grey seals from different regions strongly prefer coarse sediment types, the ideal burrowing habitat of sandeels, their preferred prey. The results also suggest that prey aggregation within the water column might be as important as horizontal heterogeneity. More importantly, I conclude that, despite the complex behavior of the study species, flexible empirical models can capture the environmental relationships that shape population distributions.

591.7

Multispectral imaging of Sphagnum canopies: measuring the spectral response of three indicator species to a fluctuating water table at Burns Bog

Elves, Andrew

02 May 2022

Northern Canadian peatlands contain vast deposits of carbon. It is with growing urgency that we seek a better understanding of their assimilative capacity. Assimilative capacity and peat accumulation in raised bogs are linked to primary productivity of resident Sphagnum species. Understanding moisture-mediated photosynthesis of Sphagnum spp. is central to understanding peat production rates. The relationship between depth to water table fluctuation and spectral reflectance of Sphagnum moss was investigated using multispectral imaging at a recovering raised bog on the southwest coast of British Columbia, Canada. Burns Bog is a temperate oceanic ombrotrophic bog. Three ecohydrological indicator species of moss were chosen for monitoring: S. capillifolium, S. papillosum, and S. cuspidatum. Three spectral vegetation indices (SVIs) were used to characterize Sphagnum productivity: the normalized difference vegetation index 660, the chlorophyll index, and the photochemical reflectance index. In terms of spectral sensitivity and the appropriateness of SVIs to species and field setting, we found better performance for the normalized difference vegetation index 660 in the discrimination of moisture mediated species-specific reflectance signals. The role that spatiotemporal scale and spectral mixing can have on reflectance signal fidelity was tested. We were specifically interested in the relationship between changes in the local water table and Sphagnum reflectance response, and whether shifting between close spatial scales can affect the statistical strength of this relationship. We found a loss of statistical significance when shifting from the species-specific cm2 scale to the spectrally mixed dm2 scale. This spatiospectral uncoupling of the moisture mediated reflectance signal has implications for the accuracy and reliability of upscaling from plot based measurements. In terms of species-specific moisture mediated reflectance signals, we were able to effectively discriminate between the three indicator species of Sphagnum along the hummock-to-hollow gradient. We were also able to confirm Sphagnum productivity and growth outside of the vascular growing season, establishing clear patterns of reflectance correlated with changes in the local moisture regime. The strongest relationships for moisture mediated Sphagnum productivity were found in the hummock forming species S. capillifolium. Each indicator Sphagnum spp. of peat has distinct functional traits adapted to its preferred position along the ecohydrological gradient. We also discovered moisture mediated and species-specific reflectance phenologies. These phenospectral characteristics of Sphagnum can inform future monitoring work, including the creation of a regionally specific phenospectral library. It’s recommended that further close scale multispectral monitoring be carried out incorporating more species of moss, as well as invasive and upland species of concern. Pervasive vascular reflectance bias in remote sensing products has implications for the reliability of peatland modelling. Avoiding vascular bias, targeted spectral monitoring of Sphagnum indicator species provides a more reliable measure for the modelling of peatland productivity and carbon assimilation estimates. / Graduate

peatland

peatland restoration

peatland monitoring

peatland modelling

peat

peat moss

multispectral

multispectral imaging

multicamera array

multitemporal

multiple linear regression

linear mixed effects

Sphagnum

sphagna

Sphagnum capillifolium

Sphagnum papillosum

Sphagnum cuspidatum

spatiospectral uncoupling

near-sensing

remote sensing

phenospectral

phenology

phenologies

phenospectral bias

phenospectral libraries

carbon assimilation

carbon dioxide

carbon dynamics

carbon emissions

carbon geographies

carbon mineralization

carbon sequestration

carbon source

carbon sink

carbon storage

irrecoverable carbon

climate forcing

methane

Ecological Restoration

restoration ecology

ecohydrology

ecohydrological restoration

hydrology

ecohydrological gradients

ecological integrity

reflectance

nature based solutions

ombrotrophic

moss

raised peatland

mires

mires

photochemical reflectance index

normalized difference vegetation index

chlorophyll index

climate change

climate forcing

climate envelope

climatope

nonvascular

vascular bias

plant functional type

plant functional types

structure equation models

spectral vegetation indices

hummock

hollow

acrotelm

catotelm

diplotelmic

biocrusts

organic soil

periodicity

moisture deficit

senescence

rejuvenescence

productivity

photosynthesis

light use efficiency

photosynthetic function

photosynthetically active radiation

water table

hydrology

rewetting

depth to water table

landscape change

landscape degradation

peat subsidence

Burns Bog

Birds, bats and arthropods in tropical agroforestry landscapes: Functional diversity, multitrophic interactions and crop yield

Maas, Bea

20 November 2013

No description available.

630

birds

bats

arthropods

multitrophic interactions

agroforestry

tropical landscape

forest margin landscape

functional diversity

crop yield

exclosure experiments

experimental exclusion

arthropod suppression

avian predation

ecosystem services

mist netting

point counts

artificial plasticine caterpillar

dummy experiment

biological control

monitoring

mapping

Lemon-bellied White-eye

Grosbeak Starling

Zosterops chloris

Scissiostrum dubium

Theobroma cacao

cacao agroforestry

cacao diseases

cacao harvest

cacao pests

flying vertebrates

aerial insectivores

volant vertebrates

logging

breeding colony

flower herbivory

mesopredator release

predatory insects

ants

spiders

aphids

Lepidoptera

Coleoptera

Lepidopteran larvae

sustainable agriculture

sustainable agroforestry

management implications

management recommendations

applied managament

extensive land use management

landscape management

conservation

biodiversity-friendly

dbh

distance to forest

forest proximity

habitat conversion

herbivory

Indonesia

insectivorous bats

insectivorous birds

invertebrates

Central Sulawesi

Napu valley

leaf gleaning

leaf herbivory

pests insects

phytophagous insects

plant productivity

remnant forest trees

shade tree managament

South-east Asia

Paleotropics

tropical landscape

tree height

landscape gradient

local shade management

Cacao Pod Borer

Cherelle Wilt

fruit abortion

Helopeltis sulawesi

deforestation

habitat fragmentation

land use intensification

forest margin species

critical decline

predation experiment

species-specific functions

Southeast Asia

biodiversity conservation

mesopredators

food security

human welfare

human well-being

poverty alleviation

poverty reduction

smallholder cacao

smallholder plantation

cacao farmers

sustainable cacao management

landscape perspective

landscape scale

large scale field experiment

long term field experiment

human wellbeing

economic importance

economic value

valuation ecosystem services

landscape matrix

yield quality

yield quantity

fruit productivity

species identity

species diversity

species richness

ecosystem functioning

pesticide use

chemical compounds

complex food web

tritrophic interactions

wildlife-friendly

rural livelihoods

endangered bird species

endangered bat species

endemic

endemic birds

endemic bats

beneficial impact

IUCN

Lore Lindu National Park

bioindicator

indicator species

forest margin

agricultural habitat

agroforestry systems

population density

predation activity

species activity

cacao flower

cacao pod

Orthoptera

linear mixed effect models

Tukey Post Hoc Test

AICc model selection

generalized least squares

restricted maximum likelihood

model simplification

species richness estimator

species accumulation

linear mixed-effects models

Likelihood Ratio Test

Maximum Likelihood

nocturnal insects

diurnal arthropods

nocturnal arthropods

diurnal insects

landscape context

Land- und Forstwirtschaft (PPN621302791)