Effects of white-tailed deer herbivory on a tallgrass prairie remnant

Gooch, Scott

11 January 2010

A study was conducted to determine what impact high white-tailed deer (Odocoileus virginianus) densities were having on the native grasslands of a tallgrass: aspen forest tract embedded within an agro-urban setting. Due to excessive spring moisture, row-crops were unavailable the first year. Using microhistological fecal analysis to determine dietary composition, deer were assessed to be placing the site’s favoured native plant species at risk of extirpation. Measuring woody stem abundance and height along and near the prairie: forest ecotone, deer were found to restructure woody growth but not directly influence encroachment rates. Indirectly, however, deer facilitated forest encroachment and prairie degradation through seed dispersal, nitrogen deposition, gap-dynamics, and trampling. Comparing dietary composition to nutritional data, deer grazed to maximize fitness, selecting foods high in IVDMD, minimizing energy expenditure, and optimizing CP. High crop CP was offset by intensively grazing particular native plants. ADF was an effective nutritional marker, not AIA.

white-tailed deer

herbivory

fecal analysis

nutrient cycling

forest encroachment

foraging strategy

disturbance index

ADL

nutritional markers

row-crops

grazing preferences

gap dynamics

seed propagation

ecological fitness

native plants

forbs

restoration

ADF

CP

AIA

NDF

deer management

ecological management

IVDMD

overabundance

tallgrass

energetics

forbs

Political ecology des engrillagements de Sologne - Tentative de défragmentation du paysage écologique, politique et disciplinaire / The Political Ecology of fencing in the Sologne region in France - An attempt to re-unify the ecological, political and disciplinary landscape

Baltzinger, Marie

23 March 2016

Quoi de plus naturel qu’une clôture ? Parmi les images d’Epinal qui nous viennent spontanément à l’esprit, le bocage avec ses haies bien ordonnées, évoque une relation apaisée, rationnelle, arcadienne avec une nature nourricière et bienveillante. Pourtant, la prolifération des clôtures en milieu rural depuis un siècle a suscité la curiosité de nombreux chercheurs dans des disciplines variées. Qu’il s’agisse de protéger la nature de dégradations engendrées par les populations humaines - dans le cas d’espaces protégés -, ou à l’inverse de protéger les humains contre des dangers « naturels » - comme dans le cas de la prévention routière, ces clôtures semblent répondre à une nécessité absolue de ségrégation spatiale entre les hommes et la nature : Quoi de moins naturel qu’une clôture ? Vu sous cet angle, le conflit politico-environnemental engendré par la propagation récente des engrillagements forestiers en Sologne reflète assez bien l’ambiguïté de nos perceptions vis-à-vis du caractère naturel ou non de ces clôtures. La Sologne est une région naturelle Française couvrant près de 500 000 hectares délimitée au nord par la vallée de la Loire et au sud par la vallée du Cher. Fruit d’une occupation humaine attestée depuis le XIe siècle, conjuguée à des contraintes écologiques spécifiques, le paysage Solognot est aujourd’hui caractérisé par son couvert boisé important (environ 50% de la surface) et ses populations importantes de grand gibier, qui entretiennent la longue réputation cynégétique de cette région ; la propriété privée y est largement majoritaire (plus de 90% de la surface forestière). En 2012, une agitation médiatique (film, articles de presse, sites internet) cristallisent un conflit environnemental latente, faisant intervenir des éléments écologiques – les effets supposés bénéfiques ou néfastes de ces engrillagements sur la grande faune, mais aussi politiques – la nécessité de réglementer les engrillagements, et culturels - la sauvegarde du « paysage Solognot ». Afin d’analyser ce conflit, une approche interdisciplinaire de type Political Ecology a été menée, mêlant travail d’enquête auprès de la population et étude du fonctionnement écologique des espaces engrillagés. Ces travaux ont montré que les engrillagements modifient la répartition spatiale des cerfs. La recherche d’effets cascades sur les oiseaux forestiers - résultants des surdensités locales de cerfs en espace engrillagé - n’a cependant pas mis en évidence d’effet négatif. A partir des enquêtes, il apparaît que le conflit est pluridimensionnel et que l’aspect écologique – bien réel – ne suffit pas à lui seul pour comprendre l’enjeu de ce débat au sujet des engrillagements. Ces résultats génèrent une réflexion sur la complexité des conflits environnementaux, et la nécessité d’envisager ces conflits sous des angles différents. Cela implique d’utiliser des outils et des approches issues de plusieurs disciplines, mais aussi et surtout de parvenir à mettre en résonance le matériel hétérogène ainsi obtenu, afin de proposer une approche multifacette mais cohérente. Dans ce cas d’étude, les résultats sur les effets cascades se sont par exemple révélés extrêmement marginaux, alors qu’une étude parallèle sur le comportement du sanglier en milieu engrillagé aurait probablement été très pertinente. Cela amène plus largement à réfléchir sur le « cadrage » des problèmes environnementaux, et sur les choix conscients ou non que nous faisons lorsque nous décrivons une situation comme problématique pour « la nature ». Plus généralement, ces résultats incitent à (re)placer le politique au cœur de nos réflexions sur ce qu’est la « nature », y compris dans la façon dont nous écologues posons nos questions de recherches. / What could be more natural than a fence? Among the traditional images in our collective heritage, a pastoral landscape with well maintained hedges evokes a calm, rational, Arcadian relationship between man and a benevolent, sustaining ature. Yet the century-long proliferation of fences in our rural landscapes has attracted the curiosity of numerous researchers from a variety of disciplines. Whether the goal is to protect nature from the degradations caused by human populations - as in the case of natural protected areas, or inversely, to protect humans from “natural” dangers – as in the case of accident prevention and road safety, fences seem to respond to a primordial necessity to segregate man and nature in space: What could be less natural than a fence? With this in mind, the political/environmental conflict over the recent propagation of forest fences in Sologne reflects quite well the ambiguity of how we perceive such fences – or they “natural” or not? The Sologne is an officially designated “natural region” in France. It extends over nearly 500,000 hectares bordered on the North by the Loire valley and on the South by the Cher valley. The Sologne landscape is the fruit of human occupation, certain since the XI century, combined with specific ecological constraints. Today, Sologne is characterized by extensive forest cover (around 50% of the surface area) and by large populations of big game animals, maintaining the region’s a long history of hunting. Furthermore, land ownership in Sologne is mainly private and more than 90% of the forested area is in private holdings. In 2012, some media excitement (film, newspaper articles, internet sites) crystallized an environmental conflict calling on ecological arguments – the supposed beneficial or detrimental effects of the fencing networks on big game, but also on political arguments – the need to regulate these networks, and on cultural arguments – preserving the Sologne landscape. In order to disentangle the structural lines of this conflict, we applied an interdisciplinary, Political Ecology approach; we combined opinion polls among the inhabitants with the study of ecological functions within the fenced zones. We observed that fences induced modifications of deer habitat use. However, our investigations into a possible cascade effect on forest birds resulting from localized deer over-population in fenced areas revealed no evidence of any negative impact. From our opinion polls, we found that the conflict seems to be multi-dimensional and that the ecological aspect – whose existence is indeed supported by fact – is not sufficient alone to understand what is at stake in this fencing dispute. Our results highlight the complexity of environmental conflicts, and the importance of viewing these conflicts from many different angles. Apprehending this complexity implies using tools and approaches from several different disciplines, but also – and above all – making the heterogeneous results obtained resonate together, in order to propose a coherent, multi-facetted approach. In this study for example, the results obtained for potential cascade effects on birds were extremely marginal, whereas a parallel study on wild boar behavior patterns in an environment with a fencing network would probably have been very pertinent. This leads us to the broader question of the “framework” of environmental problems and to the question of the choices we make – whether consciously or not – when we describe a situation as detrimental to “Nature”. More generally, the results from this study encourage us to put politics (back) into the center of our reflections surrounding the question: What is nature? – and to keep this in mind when we as ecologists define our research hypotheses.

Cascades trophiques

Cervus elaphus

Cerf

Clôtures

Conflit environnemental

Écologie forestière

Discours

Grillages

Hebivorie

Interdisciplinarité

Sologne

Oiseaux forestiers

Political Ecology

Relations homme-nature

Spatialité animale

Trophic cascades

Cervus elaphus

Deer

Fences

Environmental conflict

Woodland ecology

Discourse

Herbivory

Interdisciplinarity

Sologne

Woodland birds

Political ecology

Humannature relationships

Animal space use

Effects of Asphondylia borrichiae, Simulated Herbivory, and Nutritional Status on Survival, Flowering, and Seed Viability in Sea Oxeye Daisy (Borrichia frutescens)

Rowan, Lisa S.

01 January 2014

Although herbivory and other types of plant damage typically are viewed as detrimental to plant survival and performance, vigorous regrowth, greater seed set, and fitness benefits may be possible when damage to the apical meristem, or actively growing stem terminal, is involved. Such damage releases apical dominance, or the hormonal suppression of lateral buds, activates dormant lateral buds, and enables lateral shoots to grow. Since in plants with terminal flowers, each stem may bear a flower, removal of the apical meristem may result in stem bifurcation and ultimately increase the number of flowers and seeds, thereby increasing potential fitness. In the current study, possible overcompensation in response to apical meristem damage caused by simulated herbivory (clipping) and the gall midge Asphondylia borrichiae Rossi and Strong (Diptera: Cecidomyiidae) (galling) was investigated in the native coastal halophyte, sea oxeye daisy Borrichia frutescens (L.) DC. (Asteraceae), in relation to nutrient supplementation. Results suggest a strong correlation between stem count and gall count at the study site; moreover, apical dominance was relatively weak early in the growing season and stronger in short plants that were shaded by taller neighbors later in the season. Results also indicate that overcompensation or even full compensation is an unlikely response to apical meristem damage in B. frutescens. Stem count was similar across all stem treatments, but increased significantly with nutrient supplementation, which all supports weak apical dominance in sea oxeye daisy. Nearly all measures of fitness also were either slightly or significantly lower when clipped and galled compared to plants with stems intact, while seed count responded positively to nutrient supplementation.

Thesis

University of North Florida

UNF

Dissertations

Dissertations

Academic -- UNF -- Biology

herbivory

overcompensation

apical dominance

gall

apical meristem

Daisies -- Growth

Daisies -- Flowering

Daisies -- Sowing

Shoot apical meristems -- Health aspects

Herbivores -- Health aspects

Nutrition -- Physiological effect

Biology

Life Sciences

Plant Sciences

Pression d'herbivorie et dynamique des communautés végétales : influence à court et moyen termes des populations de cervidés sur la diversité des communautés végétales en forêt / Herbivory pressure and vegetation community dynamics : short- and mid-term impacts of deer populations on the diversity of forest vegetation communities

Boulanger, Vincent

27 April 2010

Les cervidés, animaux mobiles et herbivores, peuvent influencer les distributions, assemblages et dynamiques d'espèces végétales. L'objectif de cette thèse est d'évaluer le rôle joué par les cervidés sur la composition, stratification et dynamique de la végétation forestière. Le ré-échantillonnage de relevés couplant composition et abroutissement de la flore, implantés en 1976 en Forêt d'Arc-en-Barrois (52) a permis d'identifier (i) des espèces ligneuses préférées (Cornus sp., Rosa arvensis) ou au contraire évitées par les cervidés qui sélectionnent les espèces arbustives et à bois dense et (ii) le niveau trophique et la pression d'abroutissement comme gradients structurant la végétation et déterminant les dynamiques des espèces et des communautés. Nous analysons plus précisément le rôle des cervidés dans la progression spectaculaire de Cynoglossum germanicum, espèce rare, épizoochore et toxique.A partir d'un réseau national d'enclos/exclos suivis sur 10 ans, nous montrons que les cervidés limitent la croissance des arbustes et des espèces compétitrices, ce qui profite à la richesse spécifique de la strate herbacée. La valeur écologique et patrimoniale des espèces en progression est discutée. A l'aide de données de chasse, nous tentons d'isoler les rôles des différentes espèces d'ongulés dans ces dynamiques.Ces résultats exposent la complexité et la diversité des effets des cervidés sur la végétation forestière. Enfin, ce travail met l'accent sur la nécessité des suivis temporels intégrant toutes les composantes de l'écosystème forestier pour mieux appréhender les changements en cours. / This thesis aims at assessing the impacts of deer on forest vegetation composition, stratification and dynamics.We resampled a network of relevés coupling vegetation and browsing surveys, settled in 1976 in the national forest of Arc-en-Barrois. We identified (i) ligneous species that are either preferred (Cornus sp., Rosa arvensis) or avoided by deer, which tend to select shrubs species with dense wood and (ii) trophic level and browsing pressure as gradients that determine plant communities structures and dynamics. Then, we highlight the roles of deer in the spectacular expansion of Cynoglossum germanicum, a rare, epizoochorous and toxic species. According to a national network of exclosures, monitored for over 10 years, we show that deer limit shrubs and competing species growth, which in turn benefits to the herbaceous species richness probably through an increased light availability. Ecological and patrimonial value of the benefitting species is discussed. Using hunting statistics, we try to isolate the role of the various ungulate species in these dynamics.These results provide evidence for the diversity and complexity of deer impacts on forest vegetation. Finally, we demonstrate the need for long term monitoring programs, including all the forest ecosystem components so that we could better appreciate the forces driving the current changes

Forêt

Végétation

Herbivorie

Cerf

Chevreuil

Ongulés

Changements

Communautés végétales

Espèces ligneuses

Étude diachronique

Suivi à long terme

Ré-échantillonnage

Flore

Gestion forestière

Abroutissement

Sélectivité

Épizoochorie

Perturbations

Enclos/exclos

Réseau

Rénécofor

Arc-en-Barrois

Plan de chasse

Traits de vie

Valeurs indicatrices

Forest

Vegetation

Herbivory

Red deer

Roe deer

Ungulates

Shifts

Vegetation communities

Woody species

Diachronic study

Long-term monitoring

Resampling

Ground flora

Forest management

Browsing pressure

Selectivity

Epizoochory

Disturbance

Intermediate disturbance hypothesis

Enclosure

Network

Rénécofor

Arc-en-Barrois

Hunting statistics

Plant traits

Indicator values

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)