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The Complete Book of Groundcovers: Plants That Reduce Maintenance, Control Erosion, and Beautify the Landscape

為了解決water habitat plants的問題，作者Lewis, Gary 這樣論述：

＂A magnum opus of ground covers that deserves a place in every gardener’s library.＂ --Tony Avent, founder and owner Plant Delights Nursery Ground covers are widely thought of as utilitarian--we turn to them when we have a problem that needs a solution. Yet these plants also offer a diverse range

of beautiful and intriguing options with a variety of colors, textures, and forms. They can unify a landscape, knit together plantings and hardscape, and add extra layers of beauty, dynamism, and surprise. As a replacement for lawns, they can reduce our use of water, fertilizer, pesticides, herbicid

es, carbon-based fuels, and transform a yard into a diverse landscape of habitat and food for native insects, birds, and other wildlife. In this meticulously researched reference, nurseryman Gary Lewis profiles more than 4000 ground covers that can perform these roles with aplomb. No matter what ki

nds of conditions you’re facing--shade, dry soil, heavy clay, excess moisture--there’s a ground cover that will thrive and beautify your garden. Comprehensive, practical, and copiously illustrated, this indispensable volume belongs on the shelf of every designer, landscape architect, and serious gar

dener.

Biogenic Nano-Particles and Their Use in Agro-Ecosystems

為了解決water habitat plants的問題，作者 這樣論述：

Several nano-scale devices have emerged that are capable of analysing plant diseases, nutrient deficiencies and any other ailments that may affect food security in agro-ecosystems. It has been envisioned that smart delivery systems can be developed and utilised for better management of agricultural

ecosystems. These systems could exhibit beneficia, l multi-functional characteristics, which could be used to assess and also control habitat-imposed stresses to crops.Nanoparticle-mediated smart delivery systems can control the delivery of nutrients or bioactive and/or pesticide molecules in plants

. It has been suggested that nano-particles in plants might help determine their nutrient status and could also be used as cures in agro-ecosystems. Further, to enhance soil and crop productivity, nanotechnology has been used to create and deliver nano fertilizers, which can be defined as nano-parti

cles that directly help supply nutrients for plant growth and soil productivity. Nano-particles can be absorbed onto clay networks, leading to improved soil health and more efficient nutrient use by crops. Additionally, fertilizer particles can be coated with nano-particles that facilitate slow and

steady release of nutrients, reducing loss of nutrients and enhancing their efficiency in agri-crops. Although the use of nanotechnology in agro-ecosystems is still in its early stages and needs to be developed further, nano-particle-mediated delivery systems are promising solutions for the successf

ul management of agri-ecosystems. In this context, the book offers insights into nanotechnology in agro-ecosystems with reference to biogenic nanoparticles. It highlights the: - occurrence and diversity of Biogenic Nanoparticles- mechanistic approach involved in the synthesis of biogenic nanoparticl

es- synthesis of nanoparticles using photo-activation, and their fate in the soil ecosystem- potential applications of nanoparticles in agricultural systems- application and biogenic synthesis of gold nanoparticles and their characterization- impact of biogenic nanoparticles on biotic stress to plan

ts- mechanistic approaches involved in the antimicrobial effects and cytotoxicity of biogenic nanoparticles- role of biogenic nanoparticles in plant diseases management- relevance of biological synthesized nanoparticles in the longevity of agricultural crops - design and synthesis of nano-biosensors

for monitoring pollutants in water, soil and plant systems- applications of nanotechnology in agriculture with special refer to soil, water and plant sciencesA useful resource for postgraduate and research students in the field of plant and agricultural sciences, it is also of interest to researche

rs working in nano and biotechnology. Dr. Ghorbanpour is an Associate Professor at the Department of Medicinal Plants, Faculty of Agriculture and Natural Resources, Arak University, Iran. Dr. Ghorbanpour maintains a worldwide network, and has published over 120 journal articles and 7 books. He is

an editor of various international journals. Dr. Bhargava has over 16 years of teaching and research experience in microbial molecular biology and is currently working as an Associate Professor at Shri Ramswaroop Memorial University, Lucknow. She has worked as Principle Investigator on various major

GOI-sponsored projects, and was recently involved in a project sponsored by SERB, New Delhi. As an active researcher, Dr Bhargava has published numerous research and review articles in respected journals, along with several book chapters. Prof. Dr. Varma is The Group Deputy Vice Chancellor of Amity

University and Head of Amity Institute of Microbial Technology. He spent almost three decades as a Senior Professor at JNU, New Delhi (1985-2004). He has published over 300 research articles for respected national and international journals, as well as several major review articles and chapters in

books. He has published more than 120 books in the area of microbial technology and has been the series editor for Springer-Verlag’s Series on Soil Biology. He has extesive experience of organizing national and international training workshops/symposia and congresses.Dr. Choudhary is a member of the

National Academy of Sciences (MNASc), India. He holds a PhD in Microbiology and is currently working as an Associate Professor at Amity University, Noida. Dr. Choudhary has worked as Principle Investigator on major GOI-sponsored projects. He has published over 87 research articles for respected nat

ional and international journals, as well as several major review articles and chapters in books. He has also edited more than 10 books sponsored by SpringerNature.

生物炭和植物生長促進根圈細菌對污染土壤中鎘移動性與植物吸收之影響

為了解決water habitat plants的問題，作者洪振愷 這樣論述：

近年來隨著工業發展產生不少環境污染問題，其中土壤重金屬污染問題增加，也提高對人體危害風險發生之可能。添加生物炭與植物生長促進根圈細菌（plant-growth-promoting rhizobacteria簡稱PGPR）作為重要的土壤改良劑，利用PGPR之特性與生物炭相互作用增強土壤修復過程，對重金屬污染土壤復育應用具有極大潛力。本研究探討聯合施用生物炭與耐重金屬PGPR對受鎘污染之農田土壤中植物有效性鎘含量與吸收之影響。主要成果分述如下:1.利用熱裂解技術將菱角殼、稻殼和雜木等農業廢棄物轉化成良好生物炭，生物炭之pH值（1:5，生物炭/水）均為鹼性，約為8.35~10.75，其中以菱殼炭之

pH值與EC值較高，約為0.98~5.02 mS/cm，生物炭EC值因質材不同而有所不同。生物炭之孔隙性、比表面積與元素組成不盡相同，以雜木炭的比表面積（173 m^2/g）為最高。2.收集台南地區4處鎘污染土壤的9個植物根圈土壤樣品，篩選出53株耐受20 mg/L鎘之菌株，其中41株菌株具有固氮能力；34株菌株具有溶磷能力；其中13株菌株同時具有固氮、溶磷與IAA產生能力。3.挑選出5株具有4項以上植物促進功能的菌株並完成菌種鑑定；耐鎘菌TA794-9之溶磷能力最佳，培養50小時（菌數達10^8 CFU/mL），即可產生132.9 mg/L的水溶性磷酸鹽；各菌株之IAA產生量介於4.0~29

.9 mg/L，以耐鎘菌TA751-8分泌IAA的能力為最佳。4.在不同稀釋倍率下，TA751-4與TA751-6菌株胞外分泌物有較佳之促進萵苣胚根與胚莖生長作用。5.芥菜盆栽試驗中，施用生物炭對於土壤pH值、EC值與有機質含量有顯著提升作用，單獨接種TA751-6對植體鮮重、乾重與降低植物吸收鎘有顯著效應;施用雜木炭與稻殼炭對植體鮮重、乾重與降低植物吸收鎘有顯著效應;耐鎘菌TA751-6配合生物炭之共同施用時，對提升植物生長與降低植體吸收重金屬之功效較為顯著。