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The potential use of salt tolerant plants in the context of future agriculture strictly requires a good knowledge of species that might be used as crops or other resources; understanding their salt tolerance mechanisms and ecology also would be a sine qua non condition for introducing these taxa in agricultural practices.
This book focuses on morphological and anatomical strategies developed by halophytes during evolution that allow them to survive in high-salt environments. These adaptive strategies refer to well integrated structural features, such as succulence, salt secretion (salt glands and vesicular hairs), aerenchyma, Kranz anatomy, bulliform cells, successive cambia, tracheoidioblasts and endodermis with pronounced Casparian strips. The authors present cross sections of the roots, stems and leaves of 62 halophyte species belonging to 18 families from different habitats and climates (temperate, Mediterranean). They also discuss the ecological, physiological and evolutionary aspects of the various adaptive structures in an integrative way. Beginning with the structural level, this book offers novel insights into the ecology of halophytes and opens new perspectives for the identification of salt-tolerant crop plants or halophytes that can be used for ecological purposes, such as bio-remediation and revegetation.
Halophytic plants are a fascinating group of plants that also serve as dietary feed for livestock. Their utilization is essential for sustainable agriculture and maintaining ecological balance. This book explains the nature of halophytic plants through an in-depth presentation of their botanical and nutritional characteristics. Chapters of the book highlight different aspects of halophytes on a botanical, histological, ecological and nutritional basis when utilized as animal feed components. The issues of the histo-chemical aspects of halophytes are addressed with regard to their impact on nutrient compositions and availability to animals, while the important nutrient contents of halophytes ...
This book contains current knowledge and the most recent developments in the field of halophyte biology, ecology, and potential uses. Halophytes are characterized as plants that can survive and complete their life cycle in highly saline environments. This book explores the adaptive mechanisms and special features of halophytes that allow them to grow in environments that are unsuitable for conventional crops and considers their role as a source of food, fuel, fodder, fiber, essential oils, and medicines. Halophytes and Climate Change includes coverage of: - Special morphological, anatomical, and physiological features of halophytes - Ion accumulation patterns and homeostasis in halophytes - Potential use of halophytes in the remediation of saline soil - Growth and physiological response and tolerance to toxicity and drought - Mangrove ecology, physiology, and adaptation Written by a team of international authors and presented in full color, this book is an essential resource for researchers in the fields of plant physiology, ecology, soil science, environmental science, botany, and agriculture.
This book describes important anatomical adaptations in halophytes, based on a large review of relevant literature (since the 17th century) and recent research findings. Scientists involved in the study of plant biology, from a molecular to ecosystemic level, will find information about all major structural strategies of salt tolerant plants. The book starts with an introductory theoretical background, where several aspects related to the definition and classification of halophytes and saline environments are included. Major anatomical adaptations are then grouped around major concepts: succulence, tracheoidioblasts, salt secretion, Kranz anatomy, successive cambia, and bulliform cells. Each of them is treated following a general scheme: introductory considerations, anatomical basis, and ecological implications; a review of relevant literature is then conducted and the text is supported by a large number of figures, especially ink drawings and color micrographs.
Halofitologia este ştiinţa care studiază plantele din habitatele saline. Definiţia pare simplă, dar numai la prima vedere. Complexitatea ei rezultă însă din dificultăţile legate de definirea exactă a halofitelor, precum şi a habitatelor saline. Dacă nu se precizează exact din ce punct de vedere se studiază halofitele, înţelegem, firesc, că este vorba de un studiu interdisciplinar, reunind contribuţii şi abordări din mai multe domenii ale Biologiei Vegetale.
Highlights the potential of biosaline agriculture in a changing environment Covers all important topics related to halophyte biology including biochemistry, genetics and genomics Provides information on potential use of halophytes Each topic is explained in detail and examined from various angles More than 100 contributions by international experts
Poate că mai corect ar fi fost ca această lucrare să poarte titlul complet de „Lista plantelor de sărătură din România sau a plantelor susceptibile de a creşte pe sărăturile din România”.. Introducem în mod voit, încă de la început, această nuanţă, pe care o vom argumenta imediat. Când vorbim de un grup ecologic de plante, aşa cum sunt halofitele, prima noastră intenţie este de a asocia cauza de efect şi invers. În cazul nostru, halofitele de salinitatea crescută a solului, şi salinitatea crescută a solului de posibilitatea şi, în cele mai multe cazuri, de certitudinea apariţiei unui grup particular de plante. Până aici, nimic ieşit din comun. Problemele apar abia atunci când suntem puşi în situaţia de a defini o categorie ecologică de plante şi de a o lega intim de factorii de mediu modelatori. Aceste demersuri sunt justificate în intenţia noastră de a oferi o listă cu plantele care vegetează pe sărăturile din România.
This book represents an anatomical monograph of one of the most important strategies of halophytes’ life, namely, the secretion of salts in excess outside of body plant affected by high salinity in the soil. The work focuses primarily on reviewing the salt-secreting structures of almost all halophytes genera and species, where is well established that these adaptive mechanisms are present. First of all, it was necessary to discuss some very interesting and controversial theoretical issues regarding the terminology used for these secreting salts structures and their classification. Our intention at this level was to put order into the existing classifications by proposing a classification based on structural, anatomical criteria. This is because the language used abroad is not uniform, but heterogeneous and not based on anatomical criteria, but mainly on the functional one. There is no uniformity neither in salt-secreting structures definitions; we often found that there is confusion and even arbitrary in use of terms which are not synonymous, although the boundary between them is sometimes very fragile.