Microgramma squamulosa (Kaulf.) de la Sota e Pleopeltis hirsutissima (Raddi) de la Sota: estratégias contrastantes de uso da água em um ambiente epifítico / Microgramma squamulosa (Kaulf.) de la Sota and Pleopeltis hirsutissima (Raddi) de la Sota: two epiphytes with contrasting water use strategies

Joyce Marques Barbosa

15 October 2012

Entre os vegetais existem duas estratégias distintas para superar as condições de estresse hídrico que condicionam a sensibilidade a dessecação (SD) que está associada a mecanismos de evitação e a tolerância a dessecação (TD) que envolve suportar o estresse hídrico diretamente no nível dos tecidos e no nível subcelular. Sabe-se que os custos acoplados aos mecanismos de dessecação e reidratação em espécies TD são elevados, e provavelmente superiores aos de espécies SD. Desta forma, a coexistência de espécies com estas estratégias, como ocorre no ambiente epifítico da Cidade Universitária Armando Sales de Oliveira (CUASO), induzem questões quanto a as vantagens relativas de espécies TD sobre SD. Devido aos altos custos da estratégia TD é possível propor que estas deveriam apresentar um ganho médio de carbono superior a de espécies SD durante o período favorável (com disponibilidade hídrica). Além disso, também é razoável esperar que as distintas formas de uso da água, vinculadas às estratégias, poderiam facilitar o convívio de espécies TD e SD através da segregação de nichos. Com intuito de verificar essas hipóteses, foram realizadas análises relacionadas a estrutura de comunidade de epífitas da CUASO e, a partir destas, a detecção da associação espacial mais freqüente, que resultou composta por Pleopeltis hirsutissima (TD) e Microgramma squamulosa (SD). Estas espécies foram então selecionadas para avaliar parâmetros associados à dinâmica do uso da água, assimilação líquida de carbono, dinâmica da capacidade de uso da luz, estado de hidratação foliar e pigmentos fotossintéticos. Os resultados apontaram que espécies de ambas as estratégias não apresentam sinais de estresse crônico no ambiente estudado. Os dados reforçaram as respostas contrastantes de TD e SD, refletindo as formas distintas de lidar com os recursos e condições do ambiente. Ao contrário do esperado, P. hirsutissima não apresentou uma assimilação de carbono superior a M. squamulosa, indicando que o ganho de carbono não é um dos fatores possíveis na compensação dos custos acoplados a sua estratégia (TD). Porém, os resultados apresentados quanto a dinâmica da capacidade de uso da luz sugerem que a coexistência é facilitada pela segregação de nichos de luz, sendo a espécie TD mais heliófila do que a espécie SD / In land plants the resistance to drought can be accomplished by two main strategies. One involves mainly dehydration avoidance mechanisms and the other is based on the ability to withstand drought at the tissues and down to subcellular levels. The former is found on the desiccation sensitive plants (DS) and the last describes the desiccation tolerant plants (DT). The metabolic costs of the desiccation tolerance mechanisms are probably high, at least when considering the cessation of photosynthesis during anabiosis - a condition that is absent in drought avoidance strategies. The coexistence of drought avoiders and desiccation tolerant plants in the same substrate and condition can rise some questions about the relative advantages of each strategy when submitted to similar water regime. We ask whether desiccation tolerant plants have a compensatory carbon gain under a watering regime that induces frequent anabiosis or cumulative damage in drought avoidance have a detrimental effect comparable to the costs of the desiccation tolerance. An analysis of the epiphytic plant community associated to the trees of the CUASO urban landscape showed a very frequent co-occurring species pair including the desiccation sensitive Microgramma squamulosa and a desiccation tolerant Pleopeltis hirsutissima, both cryptogams of the same plant family. These species were thoroughly examined regarding the patterns of light, water and carbon dynamics together with pigments concentration during cycles of natural drought and wet climate field conditions. These observations were complemented with experimental induction of different water and light regimes. The results showed no sign of chronic stress in both plants living at the same condition but allowed us to identify large distinctions in resource use patterns. A compensatory carbon assimilation was not found in P.hirsutissima. Both species have similar CO2 assimilation values. Experimental induction of drought in different light regimes allowed to verify a relative advantage in desiccation tolerant P.hirsutissima in comparison to the desiccation sensitive M.squamulosa under high irradiance values. Furthermore, light curve analysis suggest that they share the same tree but their niches differ in light intensity regime allowing the high frequency of co-occurrence observed in the field

Epífitas

Estresse hídrico

Fluorescência da clorofila

Fotossíntese

Tolerância à dessecação

Chlorophyll fluorescence

Desiccation tolerance

Drought stress

Epiphytes

Photosynthesis

Nitrogen and carbon costs of growth and antioxidant production during acclimation to environmental stress in two species of gethyllis

Daniëls, Christiaan Winston

January 2012

Philosophiae Doctor - PhD / Gethyllis multifolia L. Bolus and G. villosa Thunb. are winter-growing, summerblooming,deciduous and bulbous geophytes that grow naturally in the semi-arid succulent Karoo biome of South Africa. Both species grow under full sun conditions and have four distinctive growth phases: a winter (cold and wet) growing phase, leaf senescence phase towards spring, flowering phase during the hot and dry summer months, and fruit and leaf formation phase in autumn. The medicinal uses of this genus (including G. multifolia “Kukumakranka” and G.villosa “hairy kukumakranka”) range from cures for colic, digestive disturbances,teething problems, fatigue, boils, bruises and insect bites, to being used as an aphrodisiac. Gethyllis multifolia is threatened in its natural habitat and is listed in the ‘Vulnerable’ category of the ‘Red Data List of Southern African Plants’ and the ‘IUCN-World Conservation Union List of Plants’. The literature indicate that the habitats of both species are being exposed to drier conditions and is further threatened by the encroachment of invasive indigenous plant species. It is not known to which extent these factors may pose a threat to the existence of both species. The first objective of this investigation was to determine the costs of vegetative and reproductive growth during the seasonal life cycle of the plant, using carbon(C) and nitrogen (N) as a physiological currency. The second objective was to elucidate a functional basis to explain the difference in the conservation status of both species in their natural habitat. Both species were subjected to drought and shading as environmental stresses and the plant physiological performance was investigated via photosynthetic gas exchange. The third objective of the study was to evaluate the antioxidant content (total polyphenol, flavonol/flavone and flavanone content) and antioxidant capacity [ferric reducing antioxidant power (FRAP), oxygen radical absorbance capacity (ORAC) and 2,2'-azino-di-3-ethylbenzthiazoline sulphonate (ABTS) radical cation scavenging ability] of natural populations and plant samples that were exposed to photo-and-drought environmental stresses. This study was done to elucidate the antioxidant profile of plant parts of natural populations as well as providing farmers, traditional healers and pharmaceutical companies with cultivation environmental conditions to enhance the antioxidant properties of the species. This investigation also attempted to isolate and characterize, by means of thin-layer chromatography (TLC) and column chromatography (CC), natural compounds from both species to lend support to the purported antioxidant benefit of both species and to further lend support to claims made by traditional healers of the medicinal potential of the genus. This study, however, did not engage in any in vivo studies or human trials to support published literature of the medicinal benefits of the genus.

Antioxidants

Drought stress

Gethyllis multifolia

Gethyllis villosa

Kukumakranka

Phytochemical screening

Plant physiology

Succulent Karoo biome

Picea abies and climate change – does increasing thinning intensity prevent drought stress?

Gebhardt, Timo

03 February 2017

No description available.

634

drought stress

thinning

Norway spruce

water balance

stable isotopes

Forstwirtschaft (PPN621305413)

The effect of neighborhood identity on seasonal tree growth responses and ecophysiological characteristics of European beech (Fagus sylvatica L.) / Zum Einfluss unterschiedlicher Nachbarschaftsverhältnisse von Einzelbäumen auf das saisonale Baumwachstum und ökophysiologische Merkmale der Rotbuche (Fagus sylvatica L.)

Metz, Jérôme

27 August 2019

No description available.

634

beech

competition

climate change

drought stress

mixing effects

Forstwirtschaft (PPN621305413)

Vliv sucha na metabolismus rostlin tabáku / Effect of drought on the metabolism of tobacco plants

Miedzińska, Lucia

January 2010

EEffffeecctt ooff ddrroouugghhtt oonn tthhee mmeettaabboolliissmm ooff ttaabbaaccccoo ppllaannttss (Nicotiana tabacum L.) Diploma thesis - abstract Lucia Miedzińska, Bc. Work Supervisor: Doc. RNDr. Helena Ryšlavá, CSc. Consultant: RNDr. Veronika Doubnerová, PhD. Drought stress is one of the most frequent form of plant stress, which occurs not only under condition of limited water availability, but also under reduced ability to accept water by roots, for example in salted or cold soils. In this thesis the changes in enzyme activities of: NADP-malic enzyme (EC 1.1.1.40; NADP-ME), phosphoenolpyruvate carboxylase (EC 4.1.1.31; PEPC) and pyruvate, phosphate dikinase (EC 2.7.9.1; PPDK) in tobacco plants (Nicotiana tabacum L., cv. W38) after drought were investigated. Enzyme activities in tobacco leaves were significantly increased during 11 days of stress, PEPC 2-fold, PPDK 3,3- fold and NADP-ME 4-fold compared to control plants. The regulation of NADP-ME and PEPC activities were studied on transcriptional level - by the real-time PCR method and on translational level - immunochemically. The expression of NADP-ME protein and transcription of mRNA for chloroplast NADP-ME isoform were increased, but mRNA for cytosolic isoform was not affected. The protein expression of PEPC was slightly increased, transcription of...

Stadtbäume im Klimawandel - Dendrochronologische und physiologische Untersuchungen zur Identifikation der Trockenstressempfindlichkeit häufig verwendeter Stadtbaumarten in Dresden.

Gillner, Sten

12 July 2012

Der bereits stattfindende Klimawandel mit ansteigenden Temperaturen, einer Zunahme von Trockenperioden und Hitzewellen während der Vegetationsperiode wird das Risiko von Trockenstress für Bäume und Sträucher erheblich erhöhen. Eine der Herausforderungen ist daher die erfolgreiche Etablierung von gesunden, langlebigen und an die spezifischen urbanen Standorte adaptierten Bäume, um die ökologischen und ökonomischen Wohlfahrtswirkungen städtischen Grüns auch in Zukunft zu gewährleisten. Das Ziel dieser Arbeit war es deshalb, sowohl die Eignung einiger häufig verwendeter Straßenbaumarten für stark versiegelte Straßenbaumstandorte als auch deren Toleranz gegenüber Trockenstress am Beispiel von Dresden zu identifizieren. Die Arbeit verfolgt einen dendrochronologischen und einen physiologischen Ansatz. Im dendrochronologischen Teil der Arbeit wurden die Jahrringzeitreihen von 16 Straßenbaum-Chronologien, 3 Einzelbaum-Chronologien im Stadtgebiet von Dresden und 4 Chronologien eines trockenen Waldstandortes in einem Naturschutzgebiet sowie 2 Chronologien frischer Waldstandorte analysiert. Auf Basis der trendbereinigten Zuwachszeitreihen wurden Klima-Zuwachs-Relationen, moving correlations, Weiserjahranalysen und superposed epoch analyses (SEA) durchgeführt. Im physiologischen Teil der Arbeit wurde in den Sommermonaten der Jahre 2009 und 2010 auf vier urbanen Straßenbaumstandorten der lichtgesättigte Gasaustausch von sechs Baumarten und das Blattwasserpotential von vier Baumarten ermittelt. Für die Messperioden und in ausgewählten Trockenperioden wurde die Wassernutzungseffizienz der Baumarten verglichen. Auf urbanen Straßenbaumstandorten reagieren die Arten Acer platanoides, Acer pseudoplatanus und Fagus sylvatica stark sensitiv auf Trockenheit. Im Gegensatz dazu können die Arten Platanus x hispanica, Quercus robur subsp. sessiliflora und Quercus rubra als weniger trockenheitsempfindlich betrachtet werden. Die dendrochronologischen und physiologischen Ergebnisse erlauben für Tilia cordata Mill., Tilia platyphyllos und Pyrus communis eine Einordnung in eine mittlere Eignung für versiegelte Flächen. Aus den dendrochronologischen und physiologischen Ergebnissen dieser Untersuchung lässt sich schließen, dass sich die höheren Temperaturen und die zunehmenden Trockenperioden für alle untersuchten Arten negativ auswirken können. Dennoch zeigen die Baumarten Platanus x hispanica, Quercus robur subsp. sessiliflora und Quercus rubra, dass sie den sich verändernden Klimabedingungen auf stark versiegelten urbanen Standorten gut widerstehen können und auch in Zukunft eine hohe Vitalität beibehalten werden.

info:eu-repo/classification/ddc/630

ddc:630

Stadtbäume, Klimawandel, Trockenstress

Using Tree-Ring Growth and Stable Isotopes to Explore Ponderosa Pine Ecophysiological Responses to Climate Variability and the 2012-2015 California Drought

Keen, Rachel M.

01 August 2019

Climate warming in recent decades has resulted in more frequent and severe drought events in the western United States. These changes are projected to continue, making it exceedingly important to understand how forests respond to severe drought stress, and how we can manage these forests to reduce mortality during future events. The 2012-2015 California drought is a recent example of a severe, multi-year drought that was coupled with an epidemic-scale outbreak of western pine beetle, killing nearly 90% of ponderosa pines in the central and southern Sierra Nevadas. In the first portion of this study, we compared pairs of surviving and dead ponderosa pines following this drought event to determine how the surviving trees were able to survive. We were also interested in how closely ponderosa pine tree-rings were recording ecosystem responses to this drought event. In the second portion of this study, we compared tree-ring growth rates and stable isotopes to data from an on-site flux tower to determine whether tree-rings were recording important information regarding ecosystem carbon and water fluxes during this severe drought event. Overall, we sought to better understand how the 2012- 2015 California drought event affected ponderosa pines to inform future management practices in forests of the western United States.

Dendrochronology

Stable Isotopes

California Drought

Ponderosa Pine

Drought Stress

Ecology and Evolutionary Biology

Effects of nitric oxide and hydrogen peroxide on antioxidant enzyme activity in zea mays subjected to drought

Kopana, Nolusindiso

January 2021

>Magister Scientiae - MSc / Agricultural practices are significantly affected by drought. Drought is one of the most important plant stresses, causing several physiological, morphological, biochemical, and molecular changes in plants. Drought stress is of great challenge for crop growth, development and yield. Zea mays (maize) is one of the important crops worldwide due to the nutritional profile and other uses such as human consumption, manufacturing and animal feed. Under unfavorable conditions, plants produce high amounts of reactive oxygen species (ROS). Excessive formation of ROS is harmful for plant survival and can induce cell death. Defense mechanisms activated in response to drought in plants include antioxidant enzyme activity and proline accumulation. There is evidence of the use of nitric oxide (NO) donors and hydrogen peroxide (H2O2) at low concentrations to enhance the activity of antioxidant enzymes in stressed plants. Hence, the aim of the study is to examine the role of NO and H2O2 in regulation of antioxidant enzyme activity in maize subjected to water deficit. / 2023

Zea mays

Reactive oxygen species

Nitric oxide

Drought stress

Antioxidant enzyme

Mechanisms of the interaction between beneficial endophytic bacteria and plants conferring enhanced drought and salt stress tolerance

Alwutayd, Khairiah Mubarak Saleem

01 1900

Drought and salt stress are the main global factors that reduce the average yield of most major crops. In order to meet global demands, we will need to double food production by 2050 (Tilman, Balzer, Hill, & Befort, 2011). Plant growth-promoting bacteria (PGPB) are a group of bacteria that alleviate the harmful effects of abiotic stresses such as salt, heat and drought stress on plants and decrease the global dependence on hazardous agricultural chemicals. We identified that beneficial microbes isolated from desert plants (indigfera argentea) from Jizan region, in 2012 enhance the tolerance of a variety of crop plants to drought and salt stresses under laboratory conditions and in field trials. We analyzed the interaction of these bacteria with the plants by genetic, biochemical and imaging techniques. The goal of this dissertation is to ultimately improve our understanding of the mechanisms of drought and salt stress tolerance conferred by beneficial microbes that can be used as a sustainable solution for plants and crops in degrading lands (deserts) and land affected by abiotic stresses. Outlines how each of chapter of this dissertation will contribute to the discovery of novel drought and salt stress tolerance strategies using a desert-specific bacterial endophyte.

climate change

Drought stress

Water use efficiency

Microbiome

Beneficial bacteria

Aquaporins

Seed Longevity and Climatic Tolerance of San Joaquin Wooly-Threads (Monolopia congdonii; Asteraceae) an Endangered Plant from the San Joaquin Desert, California

Excoffier, Paul

01 June 2022

San Joaquin wooly-threads (Monolopia congdonii; Asteraceae) is a federally-listed, endangered annual plant species from the desert areas of the San Joaquin Valley. Its limited range puts it at risk of extinction if the climate changes in such a way as to hinder its growth and reproduction. The primary aims of the study were to 1) determine how long-lived the seeds of the M. congdonii are, a key determinant of survival of desert annual plant populations through long droughts and 2) determine how severely hotter, drier conditions impact the ability of emerged plants to grow and reproduce. Secondarily, I aimed to test two hypotheses 1) is seed longevity within the genus Monolopia correlated with habitat aridity? 2) do species’ geographic range limits represent their climatic tolerances? In testing the viability of seeds of Monolopia species collected from herbarium specimens and old field collections, I did not find evidence for the predicted pattern of seed longevity. Though, idiosyncrasies in the data suggest possible issues with the longevity of M. congdonii seeds that are collected prematurely and warrant further investigation to develop best practices for seed collections of this species. To test the climatic tolerance of M. congdonii and the relationship between geographic range and climatic tolerance, I grew several desert annual species under three manipulated water treatments. And while, M. congdonii failed to germinate, the other species showed variable tolerance for the drought treatments but this variability was seemingly unrelated to the species’ geographic range. Importantly, Monolopia lanceolata, a close relative of M. congdonii did not show exceptional vulnerability to the drought-stress conditions relative to other co-occuring species. Taken together, the results of this study enable better informed population viability analyses with the end goal of allowing recovery efforts to succeed.

California Plants

Soil Seed Banks

Annual Plants

Climate Change

Rare Plants

Drought Stress

Biology

Botany