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Biologia e ecologia de Phloea subquadrata Spinola, 1837 (Heteroptera: Phloeidae) : uso de plantas hospedeiras e dinamica populacional na Serra do Japi, Jundiai, SP / Biology and ecology of Phloea subquadrata Spinola, 1837 ( Heteroptera: Phloeidae) : host plant utilization and population dynamics in Serra do Japi, Jundiai, SPSalomão, Adriana Trevizoli 14 February 2007 (has links)
Orientador: João Vasconcellos Neto / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-09T07:06:44Z (GMT). No. of bitstreams: 1
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Previous issue date: 2007 / Resumo: Phloea subquadrata (Heteroptera: Phloeidae) é um pentatomóideo fitófago que vive sobre troncos de árvores, aos quais se assemelha devido à coloração e ao corpo altamente modificado. Este trabalho verificou os padrões de uso de plantas hospedeiras pelo inseto, incluindo seleção de espécies e sua relação com características estruturais das plantas na Serra do Japi, Sudeste do
Brasil. Também foram investigadas a estrutura e dinâmica populacional durante três anos em plantas de Myrciaria jaboticaba. P. subquadrata foi registrado em dez espécies de Myrtaceae, ocorrendo preferencialmente em plantas com caules descamantes em relação a plantas com caules não-descamantes, e ocupou os maiores ramos disponíveis de cada espécie hospedeira. Não houve relação entre agrupamento dos ramos (isolados vs. moitas) e densidade de plantas hospedeiras e a ocupação e densidade de P. subquadrata. Adicionalmente, ninfas e adultos ocorreram durante todo o ano sobre M. jaboticaba, mas o período reprodutivo foi restrito à
estação quente e chuvosa. A densidade populacional tendeu a aumentar no fim desta estação, e os indivíduos atingiram as fases subadulta e adulta no início da estação chuvosa subseqüente. A razão sexual não diferiu de 1:1 apenas no período de recrutamento dos adultos, e foi desviada a favor de machos nos outros meses. Os indivíduos ocorreram mais próximos ao solo na estação
seca que na chuvosa, o que sugere que condições climáticas afetaram a seleção de micro-hábitats sobre a planta. Fatores abióticos, como chuvas e temperatura, também influenciaram a oviposição, dinâmica e fenologia desta população. Existem alguns poucos trabalhos sobre a biologia de Phloeidae, e este é o primeiro estudo que trata da ecologia desses insetos / Abstract: Phloea subquadrata (Heteroptera: Phloeidae) is a phytophagous pentatomoidean that lives on tree trunks, resembling to them because of its coloration and its body strongly modified. This study verified the patterns of host plant use by the insect, including species selection and its relation to structural characteristics of plants in Serra do Japi, Southeastern Brazil. Population structure and dynamics on plants of Myrciaria jaboticaba also were investigated along three years. P. subquadrata was recorded on ten species of Myrtaceae, occurring preferentially on plants that have shedding bark than on plants that have persistent bark, and occupying the largest branches of each host species. The density of P. subquadrata was not influenced neither by the level of grouping of the branches nor by the density of host plants. Additionally, nymphs and adults occurred through the year on M. jaboticaba, but the reproductive period was restricted to the warm and rainy season. Population density tended to grow at the end of this season, and the individuals attained the subadult and adult phases at the beginning of the subsequent rainy season. Sex ratio did not differ to 1:1 only during the adult recruitment period, and it was deviated towards males in the other months. Individuals occurred closest to the soil in the dry season, and this suggests that climatic conditions affected the microhabitat selection on plants. Abiotic factors, such as precipitation and temperature, also influenced the oviposition, dynamics and phenology of this population. There are some few works concerning the biology of Phloeidae, but this is the first study on the ecology of these insects / Mestrado / Ecologia / Mestre em Ecologia
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Insect macroecological patterns along an altitudinal gradient : the Greater Cederberg Biodiversity CorridorBotes, Antoinette 04 1900 (has links)
Dissertation (PhD)--University of Stellenbosch, 2006. / ENGLISH ABSTRACT: The central goal in macroecology is to determine species diversity patterns across ecological
gradients. Altitudinal and latitudinal patterns in species richness are often assumed to be
analogous. Furthermore, the primary mechanisms underlying richness patterns along these
two gradients might be similar. To date, few studies have tested whether the hypotheses
proposed to explain latitudinal richness variation apply to patterns across altitude. This study
therefore tests several hypotheses proposed to explain patterns in species diversity (i.e.
ambient energy, productivity, area and geometric constraints) and their underlying
mechanisms using altitudinal gradients in epigaeic ant and beetle species richness in the
Greater Cederberg Biodiversity Corridor (GCBC) (Western Cape, South Africa). The study
was conducted across an altitudinal gradient that was laid out from sea level to the top of a
mountain (approximately 2000 m above sea level) and down the other side thereof. First, it
was determined how the ant and beetle assemblages differ between the main vegetation types
included in the transect and which environmental variables might underlie these differences.
Thereafter, the variation in species richness and range size patterns of the two groups was
investigated across the full altitudinal gradient. This is the first study that tests the
applicability of two mid-domain models across such an altitudinal gradient using both
complete and partial assessments. The models explained large proportions of the variance in
range sizes across three domains but the ranges could have been constrained to show peaks in
the middle of the domains due to the way in which the boundaries of the domains were
selected. By contrast, the mid-domain models were not important in explaining species
richness patterns, which suggests that they cannot explain diversity across the gradient. The
species richness patterns of the two groups did not show the predicted mid-altitudinal peak.
Moreover, it was demonstrated that different processes structure ant and tenebrionid
assemblages across the same altitudinal transect. Ant species diversity was highly correlated
to contemporary climatic variables, while historical factors appear to play a more important
role in structuring tenebrionid beetle assemblages. Furthermore, support was found for the
species energy theory in the ant assemblages, as well as for two of its underlying mechanisms,
namely the more individuals hypothesis and the niche position mechanism. These results
suggest that there are likely to be substantial and complex changes to ant assemblages under
the predicted climate change scenarios for the region. Given the crucial role played by this
group in ecosystem functioning (e.g. myrmecochory) it is suggested that these responses are not likely to be a response solely to vegetation changes, but might also precipitate vegetation
changes. This study also forms the basis of a long-term monitoring programme to establish
baseline data for the epigaeic ants and tenebrionids and to monitor changes in these
communities due to climate change. / AFRIKAANSE OPSOMMING: Een van die sentrale idees in makro-ekologie is om die patrone in spesies diversiteit oor
ekologiese gradiënte te ondersoek. Verder word daar aangeneem dat spesie rykheidspatrone
oor hoogte- en breedtegradiënte analoog is aan mekaar en dat die primêre onderliggende
meganismes van die patrone dieselfde kan wees oor hierdie twee gradiënte. Tot dusver het
min studies getoets of die voorgestelde hipoteses wat breedtegradiënte in spesie rykheid
verduidelik van toepassing is op hoogtegradiënte. Hierdie studie toets dus verskeie van
hierdie hipoteses (aanvoelbare temperatuur, produktiwiteit, area en geometriese beperkinge)
en hulle onderliggende meganismes in mier en kewer spesie rykheid in die Groter Cederberg
Biodiversiteits Korridor (GCBK) (Wes Kaap, Suid Afrika). Die studie is uitgevoer oor ‘n
hoogtegradiënt wat vanaf see vlak tot ongeveer 2000 meter bo seevlak en weer aan die ander
kant van die berg af uitgelê is. Eerstens is daar bepaal hoe die mier en kewer diversiteit
verskil tussen die hoof planttipes wat oor die hoogtegradiënt voorgekom het en watter
omgewingsveranderlikes daarvoor verantwoordelik is. Daarna is die variasie in spesie rykheid
en area van verspreiding van die twee groepe ondersoek oor die hele hoogtegradiënt. Hierdie
is die eerste studie wat die toepaslikheid van twee mid-domein modelle oor so ‘n
hoogtegradiënt toets met behulp van volledige en gedeeltelike ondersoeke. Die modelle het
baie van die variasie in area van verspreiding verduidelik oor drie domeine maar die areas van
verspreiding kon beperk gewees het om pieke in die middel van die domeine te vorm as
gevolg van die manier waarop die grense van die domeine gekies is. In teenstelling, het die
modelle nie spesie rykheid verduidelik nie en dus kan hulle nie spesie diversiteit oor hierdie
gradiënt verduidelik nie. Die spesie rykheidspatrone van die twee groepe het nie die verwagte
piek by midhoogte gewys nie. Verder het verskillende prosesse mier en kewer groeperings
oor die hoogtegradiënt gestruktureer. Mier diversiteit was hoogs gekorroleer met
kontemporêre klimaatsveranderlikes, terwyl historiese faktore belangriker was vir die kewers.
Die spesie-energie teorie was ondersteun deur die data, asook die meer individue hipotese en
die nis posisie meganisme. Hierdie resultaat dui daarop dat daar moontlik komplekse
veranderinge in mier groeperings gaan plaasvind soos die klimaat verander. Miere vervul
belangrike ekologiese prosesse in ekosisteme, wat beteken dat die laasgenoemde verandering
nie bloot net gaan plaasvind as gevolg van veranderinge in die plantegroei nie, maar dat hulle
self ook veranderinge kan veroorsaak. Hierdie studie vorm ook die basis van ‘n langtermyn
moniteringsprogram om basislyn data vir hierdie twee ekologies belangrike groepe vas te stel en om veranderinge wat in hierdie gemeenskappe plaasvind, as gevolg van
klimaatsverandering, te monitor.
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A molecular phylogenetic study and the use of DNA barcoding to determine its efficacy for identification of economically important scale insects (Hemiptera: Coccoidea) of South AfricaSethusa, Mamadi Theresa 15 July 2014 (has links)
Ph.D. (Zoology) / Scale insects, plant pests of quarantine importance, with specialised anatomy and unresolved phylogenetic relationships, are responsible for major economic losses to South Africa and its trading partners. These losses may reach critical levels if the pests are not timely identified and controlled. They are currently identified based on published keys of adult females, a process that takes three days to two weeks depending on the family and the life stage of interception. In addition, agricultural commodities are often contaminated with different life stages, males or damaged specimen of these pests, making identification difficult or impossible. As a result, shipments of agricultural produce are often rejected and trade disrupted. Furthermore, pest invasions do not only occur by importation via formal channels. At times pests cross boarders as contaminants of undeclared material and may again spread on their own as they naturally expand their range. This expansion may be negatively or positively influenced by other factors such as climate change. Resolving the challenges associated with identification, phylogenetic relationships and the limited knowledge of the effects of climate change on distribution range of scale insects are the main goals of this study. Specifically (i) the development of a rapid method of species identification, (ii) the relationship between and within three major scale insect families the Coccoidea, Diaspididae and Pseudococcidae and (iii) the effect of climate change on the future distribution range of scale insects in South Africa were explored...
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Drought, dispersal, and community dynamics in arid-land streamsBogan, Michael T. 18 July 2013 (has links)
Understanding the mechanisms that regulate local species diversity and community structure is a
perennial goal of ecology. Local community structure can be viewed as the result of numerous
local and regional processes; these processes act as filters that reduce the regional species pool
down to the observed local community. In stream ecosystems, the natural flow regime (including
the timing, magnitude, and duration of high and low flow events) is widely recognized as a
primary regulator of local diversity and community composition. This is especially true in aridland
streams, where low- and zero-flow events can occur frequently and for extended periods of
time (months to years). Additionally, wetted habitat patches in arid-land stream networks are
often fragmented within and among stream networks. Thus dispersal between isolated aquatic
patches may also play a large role in regulating local communities. In my dissertation, I explored
the roles that drought, dispersal, and local habitat factors play in structuring arid-land stream
communities. I examined the impact of flow permanence and seasonal variation in flow and
other abiotic factors on aquatic communities at both fine spatial scales over a long time period (8
years; Chapter 2) and at a broad spatial scale over a shorter time period (1-2 years; Chapter 4).
Additionally, I quantified aquatic invertebrate aerial dispersal over moderate spatial scales (��� 0.5
km) by conducting a colonization experiment using artificial stream pools placed along and
inland from two arid-land streams (Chapter 4). Finally, I examined the roles of spatial isolation,
microhabitat type, and local abiotic and biotic factors in structuring aquatic communities in
freshwater oases scattered across one of the most arid regions of North America, the southern
Sonoran Desert (Chapter 5). In Chapter 2, I found that severe drought caused an unprecedented
drying event in isolated perennial stream pools, and that several additional drying events occurred
over the following four years. This transition to intermittent flow caused the extirpation of
several large, long-lived species with low dispersal abilities (including the top predator) and
drove the local community into an alternative state. In the colonization experiment described in
Chapter 3, I found that several arid-land stream invertebrate taxa disperse widely and frequently.
The widespread dispersers identified by this experiment included several of the earliest colonist
taxa observed following the severe drought described in Chapter 2. Other taxa, though, only
dispersed overland after receiving an environmental cue (rainfall) or preferentially dispersed
along stream corridors. In Chapter 4, where I examined invertebrate community structure across
a large network of well-connected intermittent and perennial reaches, I found low diversity in
intermittent reaches, regardless of their connectivity to diverse upstream perennial reaches. These
species-poor, intermittent communities were composed of a unique suite of species with lifehistory
adaptations that conferred desiccation resistance, including extended egg and larval
diapause stages. The short flow duration of intermittent reaches (<100 days) likely precluded
upstream perennial taxa from establishing populations in downstream intermittent reaches before
drying occurred, while the relative predictability of flow timing (Dec-Apr) likely allowed for a
small number of species to develop appropriate life-history traits (e.g., diapause stage, rapid
development time) to exploit these temporally-fleeting habitats. In Chapter 5, I found over 220
species of aquatic animals (including ��� 5 undescribed species) in the 19 desert oases that were
sampled across the southern Sonoran Desert. Local community composition in these oases was
strongly driven by microhabitat type. Additionally, native aquatic species richness and
abundance in these oases were significantly reduced by the introduction of tilapia, an exotic fish
species. The threats to arid-land streams presented by increased drought severity, anthropogenic
water withdrawals, and local habitat degradation (e.g., introduced species, unmanaged
recreational use) are grave across the southwestern US and northwestern Mexico. I hope that in
addition to furthering our understanding of ecological processes in arid-land streams, this
dissertation makes a small contribution towards the efforts to preserve these habitats. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from July 18, 2012 - July 18, July 2013
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