If global challenges in food production and the impact of ever-declining biodiversity are to be tackled, every country will need plant biologists who have a deep understanding of plant morphology, physiology and genetics, and how these interact to affect plant function in changing environments. These scientists will also need the capacity to use an effective and powerful set of technologies and research strategies. To prepare and inspire our students to become that next generation of researchers and to instill a meaningful involvement in research we created an integrated set of laboratory investigations that we felt truly reflected the mysteries of plant biology and puzzle-solving processes that we had encountered in our research experience. Rather than a set of unconnected experimental activities, we created a series of closely related experiments that focused on solving ‘mysteries’ in the life of the plant Arabidopsis thaliana (thale cress). The activities charge students with finding the ‘suspect’ gene responsible for the specific phenotypes of an unknown Arabidopsis mutant, which are encountered when they expose the plants to different environmental stresses. This, we hoped, would give keen but inexperienced student scientists a realistic taste of the joys (and frustrations!) of plant science research. Although thrilled by numerous university and national awards for our innovative teaching, we have been most excited by the interest in our ideas and experimental approaches from other plant science educators in Australia and overseas, who are also seeking to improve their plant biology curriculum and attract more students to plant sciences. We are thus proud to present this manual as a gift to our colleagues worldwide. Here you will find a detailed collection of state-of-the-art procedures in plant biology, as well as background information on more commonly used techniques, and tips for class preparation. The concepts and methods we present can be adapted to meet the specific needs and expertise of the teaching staff, and provide inspiration for scaling up for larger audiences, or simplifying for more junior classes. Through this publication, we hope to support our teaching colleagues in making a significant impact on improving the learning experience of plant biology students worldwide, and hope that we will motivate and inspire a new generation of plant detectives.
This specially curated collection features four reviews of current and key research on improving crop nutrient use efficiency. The first chapter explores the relationship between rhizobacteria and plant roots, looking primarily at the recruitment of rhizobacteria by the plant to carry out particular functions, such as nutrient acquisition. The chapter highlights our current understanding of the molecular determinants of legume nodulation as well as challenges for improvements of biological nitrogen fixation in legumes and non-legumes. The second chapter considers the rising use of nitrogen (N) fertilizer in agriculture and its role in the shrinking contribution of soil organic N. The chapter explores the impact of the inefficient management of N (low nitrogen-use efficiency) and the consequent developments of major environmental issues, such as pollution to groundwater, oceans and the atmosphere. The third chapter addresses key issues in using N fertilizers in wheat production, such as product cost and environmental impact. The chapter summarises the development of N-efficient cultivars and their economic benefits, as well as their role in reducing the environmental impact of excessive N fertilizer inputs, whilst maintaining respectable yields. The final chapter considers the use of breeding techniques, including genetic variability, to develop more efficient wheat varieties with improved traits related to nitrogen capture, nitrogen assimilation and nitrogen remobilization. What is an Instant Insight? An Instant Insight gives you immediate access to key research on a topic, allowing you to get right to the heart of a subject in an instant and empowering you to contribute to sustainable agriculture.
If global challenges in food production and the impact of ever-declining biodiversity are to be tackled, every country will need plant biologists who have a deep understanding of plant morphology, physiology and genetics, and how these interact to affect plant function in changing environments. These scientists will also need the capacity to use an effective and powerful set of technologies and research strategies. To prepare and inspire our students to become that next generation of researchers and to instill a meaningful involvement in research we created an integrated set of laboratory investigations that we felt truly reflected the mysteries of plant biology and puzzle-solving processes that we had encountered in our research experience. Rather than a set of unconnected experimental activities, we created a series of closely related experiments that focused on solving ‘mysteries’ in the life of the plant Arabidopsis thaliana (thale cress). The activities charge students with finding the ‘suspect’ gene responsible for the specific phenotypes of an unknown Arabidopsis mutant, which are encountered when they expose the plants to different environmental stresses. This, we hoped, would give keen but inexperienced student scientists a realistic taste of the joys (and frustrations!) of plant science research. Although thrilled by numerous university and national awards for our innovative teaching, we have been most excited by the interest in our ideas and experimental approaches from other plant science educators in Australia and overseas, who are also seeking to improve their plant biology curriculum and attract more students to plant sciences. We are thus proud to present this manual as a gift to our colleagues worldwide. Here you will find a detailed collection of state-of-the-art procedures in plant biology, as well as background information on more commonly used techniques, and tips for class preparation. The concepts and methods we present can be adapted to meet the specific needs and expertise of the teaching staff, and provide inspiration for scaling up for larger audiences, or simplifying for more junior classes. Through this publication, we hope to support our teaching colleagues in making a significant impact on improving the learning experience of plant biology students worldwide, and hope that we will motivate and inspire a new generation of plant detectives.
In premodern Germany, both the emerging centralized government and the powerful Catholic Church redefined gender roles for their own ends. Ulrike Strasser's interdisciplinary study of Catholic state-building examines this history from the vantage point of the virginal female body. Focusing on Bavaria, Germany's first absolutist state, Strasser recounts how state authorities forced chastity upon lower-class women to demarcate legitimate forms of sexuality and maintain class hierarchies. At the same time, they cloistered groups of upper-class women to harness the spiritual authority associated with holy virgins to the political authority of the state. The state finally recruited upper-class virgins as teachers who could school girls in the gender-specific morals and type of citizenship favored by authorities. Challenging Weberian concepts that link modernization to Protestantism, Strasser's study illustrates the modernizing power of Catholicism through an examination of virginity's central role in politics, culture, and society. Weaving together the stories of marriage and convent, of lay as well as religious women, State of Virginity makes important contributions to the historical study of sexuality and the growing feminist literature on the state. It will be of particular interest to students and scholars of political and religious history, women's studies, and social history.
Biogenic toxins are fascinating natural products characterized by an enormous diversity of chemical structures and pharmacological activities. They not only pose hazards to humans and animals, but they are important components in the interplay of substances and living beings in nature and, moreover, important sources for new drugs. Numerous images of plants and chemical structural formulas complete the book, as well as extensive references for further reading. The multivolume reference is an essential resource for physicians, veterinarians, pharmacists, chemists, biochemists, food chemists and biologists, for students in the relevant fields, and maybe for interested laymen. All aspects of natural toxins based on the latest scientific knowledge are included: All aspects of the toxicology of all living organisms and natural foods, chemistry, action mechanisms, symptoms of intoxications. The only book arranged on a strictly scientific base according to the biogenetic origin and chemical structure. Natural Poisons and Venoms in 5 Volumes: Volume 1: Plant Toxins: Terpenes and Steroids 2023, ISBN 978-3-11-072472-1 Volume 3: Plant Toxins: Alkaloids and Lectins 2025, ISBN 978-3-11-112740-8 Volume 4: Animal Toxins 2023, ISBN 978-3-11-072854-5 Volume 5: Fungal and Microbial Toxins 2025, ISBN 978-3-11-072856-9
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