02839nam 2200385 n 450 991064722660332120230329073523.03-0365-6302-4(CKB)5680000000300081(NjHacI)995680000000300081(EXLCZ)99568000000030008120230329d2023 uu 0engur|||||||||||txtrdacontentcrdamediacrrdacarrierGreenhouse Management for Better Vegetable Quality, Higher Nutrient Use Efficiency and Healthier Soil /edited by Xiaohui Hu, Shiwei Song, Xun Li[Place of publication not identified] :MDPI AG,2023.1 online resource (196 pages)3-0365-6301-6 Introduction -- Special Issue Overview -- Author Contributions -- Funding -- Data Availability Statement -- Acknowledgments -- Conflicts of Interest -- References.Greenhouse cultivation provides an artificially controlled environment for the year-round production of vegetables, and has played an increasingly important role in agriculture production systems in recent decades. Recent works have shown that improving greenhouse conditions can promote the growth of vegetables and enhance the uptake of nutrients, leading to better vegetable quality. Meanwhile, greenhouse conditions not only directly influence soil nutrient cycling processes and properties, but also indirectly affect them by regulating vegetable root growth and plant-soil interactions. This Special Issue features twelve original research articles that deal with the effects of novel greenhouse practices and strategies on the yield and quality of horticulture crops, as well as greenhouse soil properties. Among these publications, three studied the effects of fertilizers, including organic and macro- and micro-nutrient fertilizers, on the growth and nutrient uptake of vegetables. Two articles described the effects of water and nutrient supply using irrigation or hydroponic supplying systems on the yield and quality of vegetables. Four articles investigated the effects of environmental conditions (mainly light and temperature) on the growth and quality of vegetables. In terms of degenerated greenhouse soil, three articles showed how reductive soil disinfestation decreased soil salinity, improved soil quality, and inactivated soil-borne pathogens.Greenhouse gardeningGreenhouse gardening.635.9823Li XunSong ShiweiHu XiaohuiNjHacINjHaclBOOK9910647226603321Greenhouse Management for Better Vegetable Quality, Higher Nutrient Use Efficiency and Healthier Soil3018154UNINA05709nam 2200781Ia 450 991082543730332120241205130217.097866121241439781282124141128212414597814443583151444358316978140517591314051759159781444302875144430287697814443028821444302884(CKB)1000000000754800(EBL)819398(OCoLC)778339231(SSID)ssj0000344081(PQKBManifestationID)11232304(PQKBTitleCode)TC0000344081(PQKBWorkID)10306781(PQKB)11234494(MiAaPQ)EBC819398(Au-PeEL)EBL819398(CaPaEBR)ebr10313635(CaONFJC)MIL212414(Perlego)1012801(EXLCZ)99100000000075480020071126d2009 uy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierUnderwater archaeology the NAS guide to principles and practice /editor, Amanda Bowens, The Nautical Archaeology Society2nd ed.Malden, MA ;Oxford Blackwell Pub.20091 online resource (665 pages)9781405175920 1405175923 Includes bibliographical references (p. [219]-222) and index.Cover; Title; Copyright; List of Figures; List of Plates; Foreword; Acknowledgements; 1: The Nas Handbook - Why it Was Written; 2: Underwater Archaeology; WHAT IS ARCHAEOLOGY?; WHAT IS ARCHAEOLOGY UNDER WATER?; WHAT IS NOT ARCHAEOLOGY UNDER WATER?; CLOSELY RELATED AND COMPLEMENTARY APPROACHES (ETHNOGRAPHY AND EXPERIMENTAL ARCHAEOLOGY); 3: Getting Involved In Underwater And Foreshore Archaeology; 4: Basic Principles - Making the Most of the Clues; THE IMPORTANCE OF UNDERWATER SITES; SITE TYPES; THE RANGE OF EVIDENCE ON AN ARCHAEOLOGICAL SITE; LINKS BETWEEN CATEGORIES OF EVIDENCEUSING THE EVIDENCE; DATING; ENVIRONMENT AND SITE-FORMATION PROCESSES; THE DETERIORATION OF WOOD; CULTURE AND SITE-FORMATION PROCESSES; 5: Project Planning; THE PROJECT DESIGN; 6: Safety on Archaeological Sites Under Water and on the Foreshore; RISK ASSESSMENTS; DIVING PROJECT PLAN; CODES OF PRACTICE; CONTROL OF DIVING OPERATIONS; WORKING UNDER WATER; POTENTIAL DIVING PROBLEMS AND SOLUTIONS; SAFETY DURING EXCAVATION; INTER-TIDAL SITE SAFETY; 7: International and National Laws Relating to Archaeology Under Water; JURISDICTION - WHERE DO THE LAWS APPLY?THE REGIME IN INTERNATIONAL WATERS INTERNATIONAL SALVAGE LAW; UNDERWATER CULTURAL HERITAGE AND SALVAGE LAW; OWNERSHIP OF UNDERWATER CULTURAL HERITAGE; ABANDONMENT OF OWNERSHIP; NATIONAL LEGISLATION; INTERNATIONAL CONVENTIONS; CASE STUDIES; 8: Archaeological Recording; THE NEED FOR RECORDING; RECORDING SYSTEMS; PLANNING THE RECORDING: WHAT TO RECORD; RECORDING INFORMATION ON SITE; RECORDING TIMBERS; RECORDING CONTEXTS; RECORDING STRATIGRAPHY; RECORDING ENVIRONMENTAL EVIDENCE; RECORDING SAMPLES; RECORDING SURVEY RESULTS; RECORDING PLANS AND SECTIONS; RECORDING PHOTOGRAPHIC RESULTSCONSERVATION RECORDS; IDENTIFYING ARCHAEOLOGICAL MATERIAL; TAGS AND LABELLING; STORING THE INFORMATION; COMPUTING OPTIONS AND ISSUES; GEOGRAPHICAL INFORMATION SYSTEMS; EXPLAINING, DOCUMENTING, AND SUPERVISING THE SYSTEM; 9: Historical Research; TYPES OF EVIDENCE; LOCATING PRIMARY SOURCES; THE INTERNET; METHODS OF RESEARCH; 10: Photography; PHOTOGRAPHIC THEORY; DIGITAL PHOTOGRAPHY; SURFACE PHOTOGRAPHY; PHOTOGRAPHING FINDS; UNDERWATER PHOTOGRAPHY; UNDERWATER PHOTOGRAPHIC TECHNIQUES; DIGITAL DARKROOM; MOSAICS - PHOTO OR VIDEO; VIDEO CAMERAS; VIDEO TECHNIQUE; VIDEO EDITING; 11: Position-FixingGEOGRAPHICAL COORDINATES; ACCURACY; METHODS OF POSITION-FIXING; EQUIPMENT; 12: Underwater Search Methods; POSITIONING; COVERAGE; SAFETY; DIVER SEARCH METHODS; 13: Geophysical and Remote-Sensing Surveys; SEARCH PATTERNS, NAVIGATION AND POSITIONING; ACOUSTIC SYSTEMS; BATHYMéTRIE SURVEY; ECHO-SOUNDERS; MULTIBEAM SWATH SYSTEMS; BOTTOM-CLASSIFICATION SYSTEMS; SIDESCAN SONAR SUB-BOTTOM PROFILING; MAGNETOMETRY; INTEGRATED SURVEYS; SUBMERSIBLES: ROVS AND AUVS; AERIAL PHOTOGRAPHY; 14: Underwater Survey; TYPES OF SURVEY; AN INITIAL SKETCH; PLANNING; SETTING UP A BASELINE/CONTROL POINTS; INSTALLING SURVEY POINTSUnderwater Archaeology: The NAS Guide to Principles and Practice provides a comprehensive summary of the archaeological process as applied in an underwater context. Long awaited second edition of what is popularly referred to as the NAS Handbook Provides a practical guide to underwater archaeology: how to get involved, basic principles, essential techniques, project planning and execution, publishing and presenting Fully illustrated with over 100 drawings and new colour graphics New chapters on geophysics, historical research, photography and video, monitoring and maintenance and conservationUnderwater archaeologyShipwrecksUnderwater archaeologyHandbooks, manuals, etcUnderwater archaeology.Shipwrecks.Underwater archaeology930.1/028/04930.102804Bowens Amanda988364Nautical Archaeology Society.MiAaPQMiAaPQMiAaPQBOOK9910825437303321Underwater archaeology2260129UNINA