Functional And Anatomical Responses Of Leaves To Progressive Drought
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| Author | : Caetano Pereira Albuquerque |
| Publisher | : |
| Total Pages | : |
| Release | : 2019 |
| Genre | : |
| ISBN | : 9781392390498 |
Leaves are the primary photosynthetic organs of plants, where transpirational water loss is regulated by stomata and where the greatest tensions are experienced within the Soil-Plant-Atmosphere continuum (SPAC). As water is transported in metastable state in plant xylem, it is prone to breakage that cause air embolism that block conduits, impair water transport and reduce plant performance. The water transport pathway through plants, and leaves in particular, is also intimately connected to the living-tissues outside the xylem that can also affect water transport. We combined high-resolution x-rays micro-Computed Tomography ([mu]CT) and comprehensive 3D analysis with hydraulic and other physiological measurements to study how the leaf hydraulic system in wine grape varieties and species from a diverse set of ecological backgrounds respond to progressive dehydration. We provide novel understanding of the anatomical and structural changes in leaves and its impacts on leaf hydraulics and plant performance during progressive dehydration. The integration of the entire leaf (i.e. petiole and lamina) as well as the linkage between the responses of different varieties of crop species such as grapevines and an ecological approach using a set of species from diverse ecological backgrounds sheds light on the structural drivers of leaf hydraulic decline during progressive drought. In the first chapter, we present an overview of this dissertation and how it fits in the field of plant ecophysiology. In the second chapter, we studied petioles and leaf laminas of a set of five species from diverse ecological backgrounds and combined with leaf hydraulics to understand the general drivers of leaf xylem hydraulic decline during progressive drought. We found across species that the largest diameter xylem conduits in petioles and midribs are the first to embolize and only at severe dehydration. We also found that conduits in leaf minor veins are extremely resistant to cavitation and rarely embolized. In the third chapter, we present our findings of the drivers of leaf hydraulic conductance (K[subscript leaf]) and stomatal conductance (g[subscript s]) decline in two of the most widely cultivated wine grape varieties. By combining hydraulic and physiological measurements with scans of intact leaves across a range of water potentials, we found that leaf xylem embolism is not the cause for K[subscript leaf] and g[subscript s] decline during mild dehydration. Lastly, in the fourth chapter we studied anatomical responses to progressive dehydration in intact petioles of two common wine grape varieties known to exhibit differences in leaf drop under drought and its implications for water relations. We report for the first time the phenomenon of petiole pinching, a mechanical damage to grapevine petioles at severe water stress caused by collapsible pith that may block water flow and be related to leaf drop during drought. Petiole shrinkage during dehydration was caused by water loss in the collapsible pith cells, and this tissue was rapidly recharged upon rehydration. The collapse of the pith cells was also associated with collapse of water-filled xylem conduits in intact grapevine petioles that was reversible after relaxation of xylem tensions upon rehydration that was also associated with xylem conduit refilling in vessels that had embolized.
| Author | : Ricardo Aroca |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 460 |
| Release | : 2012-10-12 |
| Genre | : Science |
| ISBN | : 3642326528 |
This book provides a comprehensive overview of the multiple strategies that plants have developed to cope with drought, one of the most severe environmental stresses. Experts in the field present 17 chapters, each of which focuses on a basic concept as well as the latest findings. The following major aspects are covered in the book: · Morphological and anatomical adaptations · Physiological responses · Biochemical and molecular responses · Ecophysiological responses · Responses to drought under field conditions The contributions will serve as an invaluable source of information for researchers and advanced students in the fields of plant sciences, agriculture, ecophysiology, biochemistry and molecular biology.
| Author | : Eva-Mari Aro |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 624 |
| Release | : 2006-04-11 |
| Genre | : Science |
| ISBN | : 0306481480 |
This book covers the expression of photosynthesis related genes including regulation both at transcriptional and translational levels. It reviews biogenesis, turnover, and senescence of thylakoid pigment protein complexes and highlights some crucial regulatory steps in carbon metabolism.
| Author | : Grace Patricia John |
| Publisher | : |
| Total Pages | : 298 |
| Release | : 2017 |
| Genre | : |
| ISBN | : |
Plants provide invaluable ecosystem services to urban centers. Yet, these services cannot be decoupled from the cost to maintain landscaping plants. Costs are particularly difficult to quantify in urban ecosystems, like Los Angeles, where a combination of mild climate and a legacy of landscape design driven by social and economic factors has produced unprecedented species diversity. As these plants subsist entirely on irrigation water, the resulting 'global common garden' is ideally suited for testing anatomical and physiological scaling hypotheses across many diverse species to inform generalized predictive models for other species and ecosystems. My dissertation seeks to uncover relationships between leaf anatomy and function to build models estimating water use and drought tolerance in Los Angeles. I first analyzed allometric slopes describing relationships between the dimensions of leaf cells and tissues and found cell sizes, cell wall thickness and leaf thickness scale together across tissues and species. I then created a mathematically explicit model that predicted leaf mass per area (LMA) from its constitutive anatomy and composition with unprecedented explanatory power. Cell size, the number of mesophyll cell layers, and cell mass density principally drove species differences in LMA and had strong impacts on the Leaf Economics Spectrum. I linked leaf structure with physiology by resurrecting a classic method for quantifying loss of rehydration capacity in dehydrating leaves, placed associated thresholds in the sequence of drought response (e.g. stomatal closure, turgor loss), and tested their relationship with structure and composition. I found leaves to be considerably more vulnerable than previously believed. This prompted a study in which I tested canopy stomatal conductance across minor shifts in vapor pressure deficit (VPD) modeled from plant traits against empirical sap flux and leaf area data collected in urban trees. Finally, I found enormous variation in functional traits across Los Angeles species, influenced by climates of origin, growth forms, leaf habit and canopy position (i.e., sun versus shade leaves). The vast trait diversity in Los Angeles urban trees demonstrates the need for integration of species information into predictive models in urban ecosystems and highlights Los Angeles as an invaluable resource for future ecophysiological study.
| Author | : Frederick C. Meinzer |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 511 |
| Release | : 2011-06-29 |
| Genre | : Nature |
| ISBN | : 9400712421 |
Millions of trees live and grow all around us, and we all recognize the vital role they play in the world’s ecosystems. Publicity campaigns exhort us to plant yet more. Yet until recently comparatively little was known about the root causes of the physical changes that attend their growth. Since trees typically increase in size by three to four orders of magnitude in their journey to maturity, this gap in our knowledge has been a crucial issue to address. Here at last is a synthesis of the current state of our knowledge about both the causes and consequences of ontogenetic changes in key features of tree structure and function. During their ontogeny, trees undergo numerous changes in their physiological function, the structure and mechanical properties of their wood, and overall architecture and allometry. This book examines the central interplay between these changes and tree size and age. It also explores the impact these changes can have, at the level of the individual tree, on the emerging characteristics of forest ecosystems at various stages of their development. The analysis offers an explanation for the importance of discriminating between the varied physical properties arising from the nexus of size and age, as well as highlighting the implications these ontogenetic changes have for commercial forestry and climate change. This important and timely summation of our knowledge base in this area, written by highly respected researchers, will be of huge interest, not only to researchers, but also to forest managers and silviculturists.
| Author | : Hans Lambers |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 265 |
| Release | : 2006-03-30 |
| Genre | : Science |
| ISBN | : 1402035896 |
Respiration in plants, as in all living organisms, is essential to provide metabolic energy and carbon skeletons for growth and maintenance. As such, respiration is an essential component of a plant’s carbon budget. Depending on species and environmental conditions, it consumes 25-75% of all the carbohydrates produced in photosynthesis – even more at extremely slow growth rates. Respiration in plants can also proceed in a manner that produces neither metabolic energy nor carbon skeletons, but heat. This type of respiration involves the cyanide-resistant, alternative oxidase; it is unique to plants, and resides in the mitochondria. The activity of this alternative pathway can be measured based on a difference in fractionation of oxygen isotopes between the cytochrome and the alternative oxidase. Heat production is important in some flowers to attract pollinators; however, the alternative oxidase also plays a major role in leaves and roots of most plants. A common thread throughout this volume is to link respiration, including alternative oxidase activity, to plant functioning in different environments.
| Author | : Parvaiz Ahmad |
| Publisher | : John Wiley & Sons |
| Total Pages | : 784 |
| Release | : 2016-06-08 |
| Genre | : Science |
| ISBN | : 1119054478 |
Plants are subjected to a variety of abiotic stresses such as drought, temperature, salinity, air pollution, heavy metals, UV radiations, etc. To survive under these harsh conditions plants are equipped with different resistance mechanisms which vary from species to species. Due to the environmental fluctuations agricultural and horticultural crops are often exposed to different environmental stresses leading to decreased yield and problems in the growth and development of the crops. Drought stress has been found to decrease the yield to an alarming rate of some important crops throughout the globe. During last few decades, lots of physiological and molecular works have been conducted under water stress in crop plants. Water Stress and Crop Plants: A Sustainable Approach presents an up-to-date in-depth coverage of drought and flooding stress in plants, including the types, causes and consequences on plant growth and development. It discusses the physiobiochemical, molecular and omic approaches, and responses of crop plants towards water stress. Topics include nutritional stress, oxidative stress, hormonal regulation, transgenic approaches, mitigation of water stress, approaches to sustainability, and modern tools and techniques to alleviate the water stress on crop yields. This practical book offers pragmatic guidance for scientists and researchers in plant biology, and agribusinesses and biotechnology companies dealing with agronomy and environment, to mitigate the negative effects of stress and improve yield under stress. The broad coverage also makes this a valuable guide enabling students to understand the physiological, biochemical, and molecular mechanisms of environmental stress in plants.
| Author | : Aryadeep Roychoudhury |
| Publisher | : John Wiley & Sons |
| Total Pages | : 649 |
| Release | : 2019-06-13 |
| Genre | : Science |
| ISBN | : 111946367X |
A close examination of current research on abiotic stresses in various plant species The unpredictable environmental stress conditions associated with climate change are significant challenges to global food security, crop productivity, and agricultural sustainability. Rapid population growth and diminishing resources necessitate the development of crops that can adapt to environmental extremities. Although significant advancements have been made in developing plants through improved crop breeding practices and genetic manipulation, further research is necessary to understand how genes and metabolites for stress tolerance are modulated, and how cross-talk and regulators can be tuned to achieve stress tolerance. Molecular Plant Abiotic Stress: Biology and Biotechnology is an extensive investigation of the various forms of abiotic stresses encountered in plants, and susceptibility or tolerance mechanisms found in different plant species. In-depth examination of morphological, anatomical, biochemical, molecular and gene expression levels enables plant scientists to identify the different pathways and signaling cascades involved in stress response. This timely book: Covers a wide range of abiotic stresses in multiple plant species Provides researchers and scientists with transgenic strategies to overcome stress tolerances in several plant species Compiles the most recent research and up-to-date data on stress tolerance Examines both selective breeding and genetic engineering approaches to improving plant stress tolerances Written and edited by prominent scientists and researchers from across the globe Molecular Plant Abiotic Stress: Biology and Biotechnology is a valuable source of information for students, academics, scientists, researchers, and industry professionals in fields including agriculture, botany, molecular biology, biochemistry and biotechnology, and plant physiology.
| Author | : J. Levitt |
| Publisher | : Elsevier |
| Total Pages | : 622 |
| Release | : 2015-12-04 |
| Genre | : Science |
| ISBN | : 0323163408 |
Responses of Plants to Environmental Stresses, Second Edition, Volume II: Water, Radiation, Salt, and Other Stresses focuses on the effects of stresses on plants. This book discusses how stresses produce their damaging effects and how living organisms defend themselves against stresses. Organized into six parts encompassing 12 chapters, this edition starts with an overview of the various responses of plants to the severities of all the other environmental stresses, with emphasis on the physical and biological stresses and strains. This text then describes water stress in plants, which arise either from an excessive or from an insufficient water activity in the plant's environment. Other chapters consider the resistance to drought stress of plants. This book discusses as well the effects of flooding, which replaces gaseous air by liquid water. The final chapter deals with the comparative stress responses of plants. This book is a valuable resource for plant biologists.
| Author | : Mohammad Anwar Hossain |
| Publisher | : Springer |
| Total Pages | : 616 |
| Release | : 2016-08-24 |
| Genre | : Technology & Engineering |
| ISBN | : 3319324233 |
Drought is one of the most severe constraints to crop productivity worldwide, and thus it has become a major concern for global food security. Due to an increasing world population, droughts could lead to serious food shortages by 2050. The situation may worsen due to predicated climatic changes that may increase the frequency, duration and severity of droughts. Hence, there is an urgent need to improve our understanding of the complex mechanisms associated with drought tolerance and to develop modern crop varieties that are more resilient to drought. Identification of the genes responsible for drought tolerance in plants will contribute to our understanding of the molecular mechanisms that could enable crop plants to respond to drought. The discovery of novel drought related genes, the analysis of their expression patterns in response to drought, and determination of the functions these genes play in drought adaptation will provide a base to develop effective strategies to enhance the drought tolerance of crop plants. Plant breeding efforts to increase crop yields in dry environments have been slow to date mainly due to our poor understanding of the molecular and genetic mechanisms involved in how plants respond to drought. In addition, when it comes to combining favourable alleles, there are practical obstacles to developing superior high yielding genotypes fit for drought prone environments. Drought Tolerance in Plants, Vol 2: Molecular and Genetic Perspectives combines novel topical findings, regarding the major molecular and genetic events associated with drought tolerance, with contemporary crop improvement approaches. This volume is unique as it makes available for its readers not only extensive reports of existing facts and data, but also practical knowledge and overviews of state-of-the-art technologies, across the biological fields, from plant breeding using classical and molecular genetic information, to the modern omic technologies, that are now being used in drought tolerance research to breed drought-related traits into modern crop varieties. This book is useful for teachers and researchers in the fields of plant breeding, molecular biology and biotechnology.
