Interactions between invasive shrub, <i>Lonicera maackii</i>, and a generalist herbivore, White-tailed deer, in Southwestern Ohio forests

Peebles-Spencer, Jessica Rene

25 April 2016

No description available.

Biology

Botany

Ecology

Landscape Influences on Spatial Patterns of White-tailed Deer Herbivory and Condition Indices in the Central Appalachian Mountains

Kniowski, Andrew Broni

08 December 2016

White-tailed deer (Odocoileus virginianus) are a common and important game species throughout much of the central Appalachian region. The central Appalachian region encompasses a wide variety of habitat conditions and spatial habitat arrangements that may influence deer populations and management as well as deer impacts to ecosystems. Locally to regionally, deer populations have had an increasingly negative effect on forest biodiversity and a growing influence on forest succession. In Virginia, the combination of these factors has prompted establishment of deer population management goals and policies designed to support conservation of biodiversity, forest regeneration, and continued hunting opportunities. However, limited information is available to inform broad-scale assessment of herbivory impacts. Likewise, lack of understanding about the spatial variability of herbivory across and among landscapes impedes consistent application of ecological measures under differing management scenarios and landscape conditions. I evaluated deer herbivory intensity, the predictability of browsing rates, and the relationships and possible interactions between deer body mass and potential food sources, winter severity, and deer population density in the central Appalachian Mountains of Virginia. My results provide support for the inclusion of spatial factors to help partition variation of deer herbivory to allow for improved precision and accuracy in the design of field herbivory impact assessment methods and improve their application across various landscape contexts. Also, effective broad-scale herbivory impact assessment should include spatially-balanced vegetation monitoring that accounts for regional differences in deer forage preference. Agriculture and other non-forest habitats may provide resources that result in larger deer body mass either directly through food items or indirectly through alteration of the remaining forest habitat such as through increased edge. This suggests that available food sources and habitat are related to deer physiological parameters in the central Appalachian region and vary across landscapes. Likewise, these factors can change or can be affected through management across time. As a result, spatial approaches for monitoring and analysis are required for effective management and understanding of deer populations and herbivory impacts to biodiversity. / Ph. D. / White-tailed deer (<i>Odocoileus virginianus</i>) are a common and important game species throughout much of the eastern United States including the central Appalachian Mountain region. The central Appalachian region encompasses a wide variety of habitat conditions and habitat arrangements that may influence deer populations and management as well as deer impacts to ecosystems. Deer consume a variety of plants and plant matter and overabundant deer populations have had a negative effect on forest plants and biodiversity. In Virginia, deer population management goals and policies have been designed to support conservation of biodiversity, forest regeneration, and continued hunting opportunities. However, limited information is available to managers to help them improve the assessment of herbivory impacts. Also, lack of understanding of how deer herbivory patterns change across the landscape complicates the use of ecological measures in different areas. I evaluated deer herbivory intensity, the predictability of herbivory rates, and the relationships and possible interactions between deer body condition and potential food sources, winter severity, and deer population density in the central Appalachian Mountains of Virginia. My results suggest that inclusion of spatial factors, such as the movement patterns of deer in the local area, may allow for improved precision and accuracy in the design of field herbivory impact assessment methods. Also, effective, broad-scale herbivory impact assessment should include spatially-balanced vegetation monitoring that accounts for regional differences in deer forage preference. Agriculture and other non-forest habitats may provide resources that result in heavier deer either directly through food items or indirectly through alteration of the remaining forest habitat such as through increased edge. As a result, spatial approaches for monitoring and analysis are required for effective management and understanding of deer populations and herbivory impacts to biodiversity.

Appalachian Mountains

biodiversity

body mass

browsing

herbivory

landscape

mast

Odocoileus virginianus

spatial patterns

Virginia

white-tailed deer

Herbaceous plant diversity responses to various treatments of fire and herbivory in sodic patches of a semiarid riparian ecosystem / Helga van Coller

Van Coller, Helga

January 2014

Understanding relationships between large herbivores and plant species diversity in dynamic riparian zones, and more specifically sodic zones, is critical to biodiversity conservation. Sodic patches form an integral part of savanna ecosystems because of the ecosystem services and functions they provide, i.e. accumulation of nutrients, provision of open spaces for predator vigilance and formation of wet season wallowing points. Furthermore, these key resource areas sustain body condition for dry season survival and support reproduction through nutritional benefits, making them „nutrient hotspots.‟ The Nkuhlu research exclosures in the Kruger National Park (KNP) provide a unique opportunity to investigate spatial and temporal heterogeneity patterns within riparian zones, and how these patterns are affected by fire and herbivory. A monitoring project was initiated to answer questions pertaining to the dynamics of the herbaceous layer and was aimed at determining (a) whether there exists meaningful variance in herbaceous plant species richness and diversity across different treatments of fire and herbivory in the ecologically sensitive sodic zone, (b) if temporal shifts in plant species composition and diversity occurs, (c) whether an increase in herbaceous biomass, an artifact of herbivory and fire exclusion, suppresses herbaceous plant species diversity and richness, and (d) whether there exists a significant relationship between herbaceous biomass and species richness/diversity. The Nkuhlu exclosures consist of three herbivory treatments, each divided into a fire and no-fire treatment, hence six treatment combinations overall. Herbivory treatments consisted of, (1) a partially fenced area designed to specifically exclude elephants (giraffes are also excluded due to body size), (2) an open, unfenced area and (3) a fully fenced area, designed to exclude all herbivores larger than a hare. Herbaceous vegetation was sampled in two 1 m2 circular sub-plots in the eastern and western corners of each of the 82 fixed plots. Biomass of each plot was estimated with a Disc Pasture Meter (DPM) by sampling ten points diagonally within each plot. DPM-readings were converted to kg/ha according to latest conversions for the Lowveld Savanna. Species richness and biomass showed significant variance across treatments for the 2010 dataset, whereas no significant variation in herbaceous species diversity was perceived. Combined treatment of fire absence and herbivore presence contributed to higher forb species richness in the sodic zone. Biomass was significantly higher in fully fenced areas where herbivores were excluded, opposed to the open and partially fenced areas. Although no significant variation was recorded for diversity across treatments, lowest diversity was recorded in the absence of all herbivores, especially in combination with fire treatment. After nine years of herbivory exclusion, diversity of herbaceous species varied significantly. Herbaceous species composition changed over time in areas exposed to herbivory, while composition of fully fenced treatments did not reveal change. A hump-shaped relationship exists between herbaceous species richness/diversity and field biomass, at least for areas with biomass levels not exceeding 2500 kg/ha. Herbivores are therefore considered essential in sustaining herbaceous plant species richness and system heterogeneity in the sodic zone, since herbaceous species richness/diversity was higher in herbivore presence and herbaceous species composition changed over time in areas exposed to herbivory. Although statistically non-significant, fire seems to suppress species richness. Conservation implications: This study could be used as framework to advance and develop sciencebased management strategies for, at least, the sodic zones of the KNP. Research in these exclosures contributes to our understanding of these landscapes and benefit ecosystem conservation planning. It also provides valuable long-term data for key ecological processes. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2014

Fire

Herbivory

Sodic zone

Nutrient hotspots

Species richness

Species diversity

Biomass

Riparian zone

Vuur

Herbivorie

Natriumhoudende (‘sodic’) sone

Nutriëntbrandpunte (‘hotspots’)

Spesierykheid

Spesiediversiteit

Biomassa

Rivieroewersone

Herbaceous plant diversity responses to various treatments of fire and herbivory in sodic patches of a semiarid riparian ecosystem / Helga van Coller

Van Coller, Helga

January 2014

Understanding relationships between large herbivores and plant species diversity in dynamic riparian zones, and more specifically sodic zones, is critical to biodiversity conservation. Sodic patches form an integral part of savanna ecosystems because of the ecosystem services and functions they provide, i.e. accumulation of nutrients, provision of open spaces for predator vigilance and formation of wet season wallowing points. Furthermore, these key resource areas sustain body condition for dry season survival and support reproduction through nutritional benefits, making them „nutrient hotspots.‟ The Nkuhlu research exclosures in the Kruger National Park (KNP) provide a unique opportunity to investigate spatial and temporal heterogeneity patterns within riparian zones, and how these patterns are affected by fire and herbivory. A monitoring project was initiated to answer questions pertaining to the dynamics of the herbaceous layer and was aimed at determining (a) whether there exists meaningful variance in herbaceous plant species richness and diversity across different treatments of fire and herbivory in the ecologically sensitive sodic zone, (b) if temporal shifts in plant species composition and diversity occurs, (c) whether an increase in herbaceous biomass, an artifact of herbivory and fire exclusion, suppresses herbaceous plant species diversity and richness, and (d) whether there exists a significant relationship between herbaceous biomass and species richness/diversity. The Nkuhlu exclosures consist of three herbivory treatments, each divided into a fire and no-fire treatment, hence six treatment combinations overall. Herbivory treatments consisted of, (1) a partially fenced area designed to specifically exclude elephants (giraffes are also excluded due to body size), (2) an open, unfenced area and (3) a fully fenced area, designed to exclude all herbivores larger than a hare. Herbaceous vegetation was sampled in two 1 m2 circular sub-plots in the eastern and western corners of each of the 82 fixed plots. Biomass of each plot was estimated with a Disc Pasture Meter (DPM) by sampling ten points diagonally within each plot. DPM-readings were converted to kg/ha according to latest conversions for the Lowveld Savanna. Species richness and biomass showed significant variance across treatments for the 2010 dataset, whereas no significant variation in herbaceous species diversity was perceived. Combined treatment of fire absence and herbivore presence contributed to higher forb species richness in the sodic zone. Biomass was significantly higher in fully fenced areas where herbivores were excluded, opposed to the open and partially fenced areas. Although no significant variation was recorded for diversity across treatments, lowest diversity was recorded in the absence of all herbivores, especially in combination with fire treatment. After nine years of herbivory exclusion, diversity of herbaceous species varied significantly. Herbaceous species composition changed over time in areas exposed to herbivory, while composition of fully fenced treatments did not reveal change. A hump-shaped relationship exists between herbaceous species richness/diversity and field biomass, at least for areas with biomass levels not exceeding 2500 kg/ha. Herbivores are therefore considered essential in sustaining herbaceous plant species richness and system heterogeneity in the sodic zone, since herbaceous species richness/diversity was higher in herbivore presence and herbaceous species composition changed over time in areas exposed to herbivory. Although statistically non-significant, fire seems to suppress species richness. Conservation implications: This study could be used as framework to advance and develop sciencebased management strategies for, at least, the sodic zones of the KNP. Research in these exclosures contributes to our understanding of these landscapes and benefit ecosystem conservation planning. It also provides valuable long-term data for key ecological processes. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2014

Fire

Herbivory

Sodic zone

Nutrient hotspots

Species richness

Species diversity

Biomass

Riparian zone

Vuur

Herbivorie

Natriumhoudende (‘sodic’) sone

Nutriëntbrandpunte (‘hotspots’)

Spesierykheid

Spesiediversiteit

Biomassa

Rivieroewersone

Marine Seaweed Invasions : the Ecology of Introduced <i>Fucus evanescens</i>

Wikström, Sofia A.

January 2004

<p>Biological invasions are an important issue of global change and an increased understanding of invasion processes is of crucial importance for both conservation managers and international trade. In this thesis, I have studied the invasion of the brown seaweed <i>Fucus evanescens</i>, to investigate the fate and effect of a perennial, habitat-forming seaweed introduced to a coastal ecosystem. A long-term study of the spread of <i>F. evanescens</i> in Öresund (southern Sweden) showed that the species was able to expand its range quickly during the first 20 years after the introduction, but that the expansion has been slow during the subsequent 30 years. Both in Öresund and in Skagerrak, the species is largely restricted to sites where native fucoids are scarce. Laboratory experiments showed that the restricted spread of <i>F. evanescens</i> cannot be explained by the investigated abiotic factors (wave exposure and salinity), although salinity restricts the species from spreading into the Baltic Sea. Neither did I find evidence for that herbivores or epibiota provide biotic resistance to the invader. On the contrary, <i>F. evanescens</i> was less consumed by native herbivores, both compared to the native fucoids and to <i>F. evanescens</i> populations in its native range, and little overgrown by epiphytes. Instead, the restricted spread may be due to competition from native seaweeds, probably by pre-occupation of space, and the establishment has probably been facilitated by disturbance. </p><p>The studies provided little support for a general enemy release in introduced seaweeds. The low herbivore consumption of <i>F. evanescens</i> in Sweden could not be explained by release from specialist herbivores. Instead, high levels of chemical anti-herbivore defence metabolites (phlorotannins) could explain the pattern of herbivore preference for different fucoids. Likewise, the low epibiotic colonisation of <i>F. evanescens </i>plants could be explained by high resistance to epibiotic survival. This shows that colonisation of invading seaweeds by native herbivores and epibionts depends on properties of the invading species. The large differences between fucoid species in their quality as food and habitat for epibionts and herbivores imply that invasions of such habitat-forming species may have a considerable effect on a number of other species in shallow coastal areas. However, since <i>F. evanescens</i> did not exclude other fucoids in its new range, its effect on the recipient biota is probably small.</p>

biological invasions

marine

seaweed

algae

herbivory

enemy release hypothesis

phlorotannins

anti-fouling

Fucus evanescens

Terrestisk, limnisk och marin ekologi

The effects of tropical forest management on biodiversity and ecosystem functioning

Slade, Eleanor M.

January 2007

The Effects of Tropical Forest Management on Biodiversity and Ecosystem Functioning Eleanor M. Slade 1. Between 35 % and 50 % of all closed-canopy tropical forest has been lost, and the rate of deforestation continues to increase throughout the tropics. Despite a wealth of literature on the effects of tropical forest disturbance on the diversity and composition of a variety of taxa, there is still no clear consensus on the value of disturbed forests for biodiversity. 2. If forest management practises are to be sustainable in the long-term they should maintain both biodiversity and ecosystem functioning (the interactions and processes of the ecosystem), as well as a timber harvest. However, few studies have investigated the extent to which ecosystem functioning is reduced in logged forests. The effects of different logging intensities on a variety of taxa, and the ecosystem processes with which they are associated, were assessed in the Danum Valley Conservation Area in Sabah (Malaysian Borneo). 3. Even under high logging intensities, the forests of Sabah appear to have been managed in a way that maintains timber yields in the short-term. However, other aspects of forest structure had been affected, which could have important consequences ecologically, and for the long-term sustainability of timber harvests. 4. Combining field studies with manipulative experiments allows assessment of the impacts of species changes associated with habitat modification on measures of ecosystem functioning. Dung beetle (Coleoptera: Scarabaeidae: Scarabaeinae) functional group richness and composition were manipulated in a series of field experiments. Certain functional groups and species were found to have a greater impact on ecosystem functioning than others; nevertheless a full complement of species was needed to maintain full ecosystem functioning. 5. Dung beetles appeared to be relatively robust to changes in forest structure associated with selective logging, but species richness was reduced with high-intensity logging. There was a corresponding decrease in ecosystem functioning (dung and seed removal) with a decrease in species richness, and a decrease in the biomass of large nocturnal tunnellers, suggesting that although some species are dominant, rare species are also needed to preserve full ecosystem functioning. 6. A complex interaction between birds and ants resulted in reduced herbivory of seedlings of the important timber tree, Parashorea malaanonan, in some instances. However, this interaction was not affected by either selective or high intensity logging. Seedfall of P. malaanonan, was reduced in logged forest compared to primary forest. Despite insect seed predation being higher in primary forest, there was still successful recruitment during a non-mast year. Parasitism of insect-predated seeds was found to be inversely density dependent, and was higher in logged forest where seed predation was lower. 7. The results of this thesis suggest that the forests of Sabah appear to be being logged under a management system that is compatible with sustainable timber management, but not necessarily sustainable forest management. Low intensity selective logging seems to preserve much of the original forest structure, biodiversity and ecosystem functioning compared to logging at higher intensities. However, ecosystem processes were variable in their response to logging, suggesting that management decisions should be based on the consideration of multiple taxa and processes.

634.9

Acacia tortilis (Forssk.) Hayne subsp. raddiana (Savi) Brenan en Tunisie pré-saharienne : structure du peuplement, réponses et effets biologiques et environnementaux

Noumi, Zouhaier

23 November 2010

Ce travail de thèse a pour objectif principal de comprendre la dynamique de l’espèce fondatrice de l’écosystème de la région de Bled Talah, ainsi que les mécanismes susceptibles de mieux comprendre ses interactions avec la végétation compagne. Des mesures dendrométriques accomplies par des essais de détermination d’âge, ont fait ressortir que le peuplement de la forêt du Bou Hedma semble naturellement suivre plutôt une certaine dynamique régressive. C’est ainsi que nos résultats démontrent plutôt la dominance des individus de grandes circonférences (des individus âgés). Les obstacles à la faible régénération naturelle de ce taxon sont, essentiellement, l’infestation des graines par les bruches, la possibilité d’un éventuel effet autoallélopathique et la dominance des interactions négatives (compétition) entre la végétation du Parc National du Bou Hedma et les jeunes plants d’Acacia. Concernant, les interactions biotiques, nos résultats ont permis d’enrichir les débats actuels sur l’importance et la direction des interactions le long des gradients de stress et de perturbation. Une dominance des interactions négatives (compétition), le long des deux gradients a été démontrée, avec une chute de l’importance de la compétition en présence d’herbivorie. Les mesures environnementales et biologiques ont permis de conclure, qu’Acacia tortilis subsp. raddiana, a un effet globalement bénéfique pour le sol, ainsi que pour la végétation naturelle environnante. Compte tenu du rôle clef de cette espèce sous les conditions contraignantes du bioclimat aride, la nécessité de minimiser le risque de la faible régénération naturelle de ce taxon est prioritaire dans les grands programmes de reboisement et de restauration des écosystèmes arides. / The main aim of this work were to understand the dynamics of the founding species of the ecosystem of the region of Bled Talah, as well as the mechanisms to understand better its interactions with the vegetation partner. Dendrometric parameters were measured for each tree then determination of age were estimated. This work improves general understanding of the factors explaining the structure of the Acacia tortilis subsp. raddiana. These species naturally seems to follow rather a certain regressive dynamics. The possible reasons for regeneration failure natural regeneration of Acacia tortilis subsp. raddiana were especially the high infestation of seeds by Bruchidius raddianae, the autoallelopathic effetcs and the dominance of the negative interactions (competition) between the vegetation of the National park of Bou Hedma and the young plantations of Acacia tree. The importance and direction of biotic interactions along environmental gradients is still a major debate in plant ecology. Through the study of biotic interactions, our results suggests the dominance of competition between nurses and target species used in this work.The results of this study confirmed the positive effect of Acacia tortilis subsp. raddiana on the understorey vegetation composition and diversity in arid ecosystems. Once, established in the dry area, this species ameliorates microclimate including soil conditions that may be suitable to the regeneration and the growth of other species. In this way, this species will provide beneficial effects to the generating seedlings in the vicinity and therfore will help rehabilitating degraded areas.

Acacia tortilis subsp. raddiana

Germination

Herbivorie

Interactions biotiques

Structure du peuplement

Tunisie aride

Acacia tortilis subsp. raddiana

Germination

Herbivory

Biotic and abiotic interactions

Structure of population

Arid areas

Facteurs influençant le succès de la restauration des populations de carex faux-lupulina

Langlois, Annabelle

01 1900

Ce mémoire visait à déterminer les pratiques et les facteurs favorables au succès des réintroductions du carex faux-lupulina (Carex lupuliformis), une espèce vivace menacée poussant dans divers types de milieux humides ouverts du nord-est de l’Amérique du Nord. Pour répondre à cet objectif, des expériences de germination en serres ont été réalisées, et la survie, la vigueur et le microhabitat de chaque plant de carex faux-lupulina connu au Québec (sauvage ou réintroduit) ont été mesurés. Nos résultats montrent que le carex faux-lupulina est une espèce facile à propager ex situ. Une stratification froide (4°C) des semences dans du sable humide pendant un mois induit des taux de germination élevés. Nos résultats montrent également que des pucerons exotiques, ainsi qu’une transplantation dans des habitats inadaptés aux besoins de l’espèce en termes d’humidité du sol et de lumière disponible, ont causé la mort prématurée d’un grand nombre de transplants. Notre programme de réintroduction a permis d’établir une nouvelle population de l’espèce au Québec, et a potentiellement permis de sextupler la taille des populations de la province. Globalement, cette étude a permis de mieux comprendre l’écologie du carex faux-lupulina, et ainsi de faciliter la restauration de ses populations. / This study aimed to determine the practices and factors influencing the success of the reintroductions of false hop sedge, an endangered perennial species growing in North American open wetlands. To do so, germination experiments were performed, and the survival, vigour and microhabitat of each false hop sedge plant known in Québec (wild or reintroduced) were measured. Our results show that false hop sedge is easy to propagate ex situ. A cold stratification (4°C) of seeds in wet sand for one month induced higher germination rates. Our results also show that exotic aphids, as well as a transplantation in habitats that did not meet the false hop sedge requirements in terms of soil moisture and available light, caused the premature death of many transplants. Our reintroduction program allowed the establishment of at least one new false hop sedge population in Québec, and potentially contributed to sextupling the size of the provincial population. Overall, this study allowed us to better understand the ecology of false hop sedge, and thus facilitate the restoration of its populations.

Carex lupuliformis

Carex

Germination

Réintroductions

Milieux humides

Espèces menacées

Herbivorie

Humidité du sol

Lumière

Wetlands

Endangered species

Herbivory

Soil moisture

Light

Reintroductions

Caracterização da atividade antipatogênica da SUGARWIN, uma proteína induzida por inseto em cana-de-açúcar / Characterization of antipathogenic activity of SUGARWIN, a sugarcane insect-induced protein

Franco, Flávia Pereira

04 February 2013

Em cana-de-açúcar, a colonização do caule por fungos oportunistas, como Fusarium verticillioides e Colletotrichum falcatum, geralmente ocorre após o ataque da lagarta de Diatraea saccharalis. As plantas respondem ao ataque de insetos pela indução e acúmulo de um grande conjunto de proteínas de defesa. Dois homólogos de uma proteína da cevada induzida por ferimento (BARWIN) são conhecidos em cana-de-açúcar, SUGARWIN1 e SUGARWIN2 (sugarcane wound-inducible proteins). Embora a função da proteína BARWIN não tenha sido totalmente estabelecida, propriedades antifúngicas foram descritas para uma série de homólogos. As SUGARWINs estão localizadas no retículo endoplasmático e no espaço extracelular. A indução de seus transcritos ocorre em resposta ao ferimento mecânico, ataque de D. saccharalis e tratamento com metil jasmonato, mas não pela infecção de patógenos. Os transcritos de SUGARWIN são induzidos tardiamente em cana-de-açúcar e são restritos aos locais onde ocorrem os danos. Apesar de transcritos de SUGARWIN1 e 2 serem altamente induzidos pelo ataque de D. saccharalis a proteína em si não possui efeito sobre o desenvolvimento do inseto. Neste trabalho demonstra-se que SUGARWIN2 recombinante causa alterações na morfologia de F. verticillioides e C. falcatum, produzindo aumento da vacuolização, vários pontos de fratura, liberação de material intracelular e formando calos na região dos séptos, culminando na morte destes fungos por apoptose. A SUGARWIN2 recombinante não apesenta efeito em outros fungos, como Saccharomyces cerevisiae e Aspergillus nidulans. Os resultados sugerem que, no curso da evolução genes de SUGARWIN foram recrutados pela cana-de-açúcar para se proteger de fungos oportunistas que, geralmente, penetram na cana após o dano causado pelo inseto. / In sugarcane fields, colonization of the stalk by opportunistic fungi, like Fusarium verticillioides and Colletotrichum falcatum, usually occurs after the attack of Diatraea saccharalis caterpillars. Plants respond to insect attack by inducing and accumulating a large set of defense proteins. Two homologues of a barley wound-inducible protein (BARWIN) are known in sugarcane, SUGARWIN1 and SUGARWIN2 (sugarcane wound-inducible proteins). Although BARWIN protein function has not been fully established, antifungal properties have been described for a number of homologues. The SUGARWINs are located in the endoplasmic reticulum and in the extracellular space of sugarcane plants. The induction of SUGARWIN transcripts occurs in response to mechanical wounding, D. saccharalis damage, and methyl jasmonate treatment but not to pathogen infection. SUGARWIN transcripts are late induced and are restricted to the wound site. Although SUGARWIN transcripts increased after insect attack, the protein itself did not show any effect on insect development. This work shows that recombinant SUGARWIN2 altered F. verticillioides and C. falcatum morphology increasing vacuolization, points of fractures, leaking of intracellular material, leading to the apoptosis of the germlings. Recombinant SUGARWIN2 do not show any effect in other fungus like Saccharomyces cerevisiae and Aspergillus nidulans. The results suggest that, in the course of evolution, SUGARWIN genes were recruited by sugarcane to protect the plant from fungi that typically penetrate the plant stalk after insect damage.

Antipathogenic protein

C. falcatum.

Cana-de-açúcar

D. saccharalis

F. verticillioides.

Fungos fitopatogênicos

Herbivory

Insetos fitófagos

Podridão - Doença de planta

Proteína antipatogênica

Sugarcane

Mosaicos sucessionais em florestas tropicais: efeitos sobre o forrageio e deposição de fezes pela anta Tapirus terrestris (Perissodactyla: Tapiridae) / Successional mosaics in tropical forests: effects on foraging and dung deposition by tapirs Tapirus terrestris (Perissodactyla: Tapiridae)

Luca, Juliana Ranzani de

15 August 2012

Grandes mamíferos herbívoros exercem papel fundamental para a função e estrutura dos ecossistemas terrestres, através principalmente da herbivoria e da deposição de fezes e urina, que influenciam a germinação e crescimento de plantas, a composição e diversidade de comunidades vegetais, a ciclagem e translocação de nutrientes, o estoque de carbono e a freqüência de distúrbios como o fogo. Entretanto, em florestas tropicais, o papel de grandes mamíferos herbívoros foi pouco estudado até o momento. De acordo com a Teoria de Forrageio Ótimo, a seleção de recursos alimentares é resultado do balanço entre o ganho energético e o gasto com a procura, captura e ingestão do alimento. Na escala da paisagem, um dos processos que pode gerar manchas com diferentes qualidades nutricionais para herbívoros é a sucessão da vegetação. Estádios iniciais de sucessão, por serem dominados por espécies de plantas de baixa estatura e crescimento rápido, com folhas tenras, alto conteúdo de nitrogênio, poucos compostos secundários e mais palatáveis, deveriam ser preferidos por grandes mamíferos herbívoros. No entanto, para herbívoros podadores, que incluem frutos na dieta, a disponibilidade destes itens, que são mais nutritivos que a folhagem, deve também influenciar o forrageio. Neste trabalho investigamos como varia a intensidade de forrageio e a deposição de fezes por Tapirus terrestris entre estádios sucessionais, visando contribuir para o entendimento do papel do maior herbívoro terrestre sul-americano para a regeneração da floresta e a translocação de nutrientes. Investigamos se T. Terrestris forrageia mais intensamente em manchas de vegetação em estádios mais iniciais de sucessão, se esta preferência é mais forte quando não há a oferta de um recurso alimentar muito nutritivo, os frutos de cambuci (Campomanesia phaea), e se deposita maior quantidade de fezes onde forrageia mais intensamente e assim não transloca nutrientes. Para tanto, em uma paisagem de 20.000 ha de Floresta Atlântica contínua, foram alocados 12 sítios de amostragem em manchas com diferentes proporções de vegetação em estádios mais iniciais de sucessão. Em cada sítio, a amostragem foi realizada em quatro transecções perpendiculares de 160 m cada durante seis sessões entre março e agosto de 2011. A anta foi registrada através de armadilhas fotográficas e de rastros e fezes localizados e removidos no início e no final de cada sessão. Foram também quantificados a proporção das transecções ocupada por estádios iniciais de sucessão (estádios pioneiro, inicial e médio), o número de clareiras, e o número de pontos das transecções onde a densidade do sub-bosque, do estrato herbáceo e de árvores com DAP até 5 cm foi considerada alta ou muito alta. A frutificação do cambuci foi acompanhada ao longo do período de estudo, tendo sido registrada em metade das sessões de amostragem. Através da abordagem de seleção de modelos, comparamos um conjunto de modelos candidatos para três variáveis dependentes: (a) parâmetro abundância (&lambda;, interpretado como a intensidade de forrageio ao longo das sessões de amostragem) em modelos de abundância (que assumem que não há variações temporais na abundância), considerando apenas modelos simples com cada uma das variáveis explanatórias associadas à proporção de vegetação em estádios mais iniciais de sucessão; (b) número de setores com rastros (interpretado como a intensidade de forrageio dentro das sessões de amostragem) em modelos mistos (GLMMs), considerando estes mesmos modelos simples e mais um grupo de modelos compostos que incluem uma variável temporal relacionada à frutificação do cambuci; e (c) número total de fezes em modelos lineares (GLMs), considerando todos os modelos descritos anteriormente e um modelo com o número total de setores com rastros (interpretado como a intensidade de forrageio total). Nossos resultados indicam que, como esperado pela Teoria de Forrageio Ótimo, Tapirus terrestris seleciona manchas de vegetação em estádios mais iniciais de sucessão, particularmente áreas com maior densidade de árvores pequenas e com maior número de clareiras, e especialmente quando não há oferta de frutos de cambuci. Embora o número total de fezes seja melhor explicado pelo número total de setores com rastros, a relação do número total de fezes com a proporção de estádios iniciais tende a ser negativa, sugerindo que possa haver alguma translocação de nutrientes dos estádios jovens para os tardios. Embora inferências sobre o efeito de T. terrestris sobre a comunidade de plantas dependam de estudos complementares em escalas menores, nossos resultados sugerem que: a herbivoria afeta estádios iniciais de sucessão, onde pode resultar no aumento da diversidade de plantas; antas podem ser agentes de translocação de nutrientes de estádios ricos (iniciais) para aqueles onde nutrientes tendem a ser limitantes (tardios), e a espécie é um potencial agente dispersor do cambuci, espécie ameaçada de extinção / Large herbivorous mammals play a crucial role to the function and structure of terrestrial ecosystems, mainly through herbivory and deposition of dung and urine, which influence plant germination and growth, composition and diversity of plant communities, nutrient cycling and translocation, carbon storage and the frequency of disturbances such as fire. So far, however, the role of large herbivorous mammals in tropical forests has been poorly studied. According to the Optimal Foraging Theory, selection of food resources results from the balance between energy intake and costs to search, capture and ingest the food. At the landscape scale, a process that can generate patches with different nutritional quality for herbivores is vegetation succession. Early successional stages should be preferred by large herbivorous mammals because they are dominated by plant with low height and fast growth, with leaves that are tender, present high nitrogen content and few secondary compounds, and are more palatable. However, for herbivore browsers, which include fruits in their diet, the availability of these items that are more nutritious than foliage should also affect foraging. Here, we investigate how foraging intensity and dung deposition by Tapirus terrestris vary among successional stages, aiming at contributing to the understanding of the role of the largest South American terrestrial herbivore to forest regeneration and nutrient translocation. We investigated if T. terrestris forages more intensively in earlier successional stages, if this preference is stronger when there is no availability of a highly nutritious food resource, the fruits of cambuci (Campomanesia phaea), and if it deposits larger amounts of dung where it forages more intensively, not translocating nutrients. In a 20,000 ha landscape of continuous Atlantic Forest, we allocated 12 sampling sites in patches with different proportion of vegetation in early successional stages. At each site, samplings were conducted in four 160 m long perpendicular transects during six sessions between March and August 2011. Tapir were registered by camera traps and tracks and dung located and cleared at the beginning and end of each session. We also quantified the proportion of transects occupied by early successional stages (pioneer, initial, and mid stage), the number of gaps, and the number of points in transects where the density of the understory , of herbaceous vegetation and of trees with DBH up to 5cm was considered high or very high. The fruiting of cambuci was registered throughout the study period, and was recorded in half of the sampling sessions. Using a model selection approach, we compared a set of candidate models for three dependent variables: (a) the parameter abundance (&lambda;, interpreted as foraging intensity along sampling sessions) in abundance models (which assume no temporal variations in abundance), considering only simple models containing each of the explanatory variables associated with the proportion of earlier successional stages, (b) the number of transect sectors with tracks (interpreted as foraging intensity within sampling sessions) in mixed-effects models (GLMMs), considering these same simple models and a group of composite models that included a temporal variable related to cambuci frutification, and (c) the total number of dung piles in linear models (GLMs), considering all models described above and a model with the total number of transect sectors with tracks (interpreted as total foraging intensity). Our results indicate that, as expected by the Optimal Foraging Theory, Tapirus terrestris selects patches of vegetation in earlier successional stages, in particular areas with higher density of small trees and higher number of gaps, and especially when there is no availability of cambuci fruits. Although the total number of dung piles is better explained by the total number of transect sectors with tracks, the relationship between the number of dung piles and the proportion of earlier successional stages tends to be negative, suggesting that there may be translocation of nutrients from initial to later successional stages. Although conclusions on the effect of T. terrestris on plant communities depend on complementary studies at smaller scales, our results suggest that: herbivory affects early successional stages, where it can result in increased plant diversity; tapirs may act as agents of nutrient translocation from nutrient-rich stages (earlier) to those where nutrients tend to be limiting (later); and tapirs are a potential disperser of cambuci, an endangered plant species

Atlantic Forest

Floresta Atlântica

Forest succession

Forrageio ótimo

Herbivoria

Herbivory

Nutrients translocation

Optimal foraging

Sucessão florestal

Translocação de nutrientes

Ungulados podadores

Ungulate browsers