Soil ecology. KEN KILLHAM Department of Plant and Soil Science, University of Aberdeen CAMBRIDGE UNIVERSITY PRESS. with electron micrographs by
|
|
- Dora Jennings
- 5 years ago
- Views:
Transcription
1 ot Soil ecology KEN KILLHAM Department of Plant and Soil Science, University of Aberdeen with electron micrographs by R A L P H FOSTER, CSIRO Division of Soils, South Australia CAMBRIDGE UNIVERSITY PRESS
2 Contents Foreword Introduction xv xvii 1 The soil environment Introduction The soil as a source of energy and nutrients to the biota Soil minerals as a source of nutrients Soil organic matter as a source of nutrients Living biomass as a source of nutrients Structural aspects of the soil habitat Soil water Water stress Soil water and nutrient supply to the soil biota Soil atmosphere The soil atmosphere as a source of carbon and nutrients to the soil biota Soil redox potential Soil ph Soil temperature Soil light Soil microsites Conclusions The soil biota 34 Introduction 34 Plant roots 34 IX
3 x Contents Soil microbes - bacteria, actinomycetes, fungi and algae 40 Introduction 40 Bacteria 41 Actinomycetes 46 Fungi 47 Algae 52 Protozoa (microfauna) 54 Slime moulds 57 Larger soil fauna (meso- and macrofauna) 57 Introduction 57 Oligochaetes - earthworms and enchytraeid worms 58 Nematodes 59 Arthropods 60 Molluscs 60 Soil viruses 61 3 Ecological interactions between the soil biota 62 Introduction 62 Plant/microbial interactions 62 The legume/r/iizobi'wm association 62 The mycorrhizal association - a plant root/fungus interaction 66 The rhizosphere - a zone of interaction between plant roots and the soil biota 71 Animal/microbial interactions 75 Animal/animal interactions 76 Plant/animal interactions 77 Microbe/microbe interactions 78 Complex interactions 79 Soil biological community dynamics 79 Root population dynamics 79 Microbial population dynamics 80 Competition between organisms in soil 83 Prey/predator interactions and microbial population dynamics in soils 86 Population dynamics of soil animals 87
4 Contents xi 4 The ecology of soil nutrient cycling 89 Introduction 89 The carbon cycle 89 Introduction - the global carbon cycle 89 C-inputs to the soil carbon cycle 90 The turnover of carbon in soils 92 Forms of soil organic carbon 93 Decomposition of different forms of organic carbon in soil 95 Rates of carbon turnover 100 Factors affecting the rate of carbon turnover in soil 102 Decomposition of organic carbon in soil - production of stable soil organic matter 103 Decomposer communities in the soil 105 The interaction between the carbon cycle and other soil nutrient cycles 106 The nitrogen cycle 108 Introduction 108 N-inputs to the soil/plant system 109 Immobilisation/mineralisation reactions and plant N-uptake 114 Nitrification 124 Denitrification 131 Dissimilatory reduction of nitrate to ammonium 136 Ammonia volatilisation 136 The use of 15 N in the study of soil N-cycling 138 The sulphur cycle 141 Introduction 141 S-inputs to the soil/plant system 142 Sulphur mineralisation/immobilisation reactions in soil 143 Oxidation of inorganic S-compounds in soil 145 Reduction of oxidised sulphur compounds in soil 148 Volatilisation of sulphur from soil Ecology of extreme soil environments - soil water stress 151 Introduction 151 Soil water/salt stress and the plant 152 The plant root and soil water stress 154 Mycorrhizal response to soil water stress 157
5 xii Contents Mechanisms of mycorrhizal mediation of plant drought tolerance 158 Phosphorus nutrition and mycorrhizal response to water stress 159 Water stress and the mycorrhizal infection process 160 Water stress and soil microbes 160 Water stress and soil animals 164 Conclusions Ecology of polluted soils 167 Introduction 167 Ecology of soils polluted from acid deposition 167 Introduction 167 Effects of acid deposition on soil processes 167 Factors controlling the extent of acid deposition effects 168 Acid deposition and soil ecology - mechanisms of effects 170 Changes in the soil biota due to acid deposition 172 Acid deposition and effects in the rhizosphere 173 Acid rain and soil animals 174 Conclusions 174 Ecology of soils polluted with radionuclides 175 Introduction 175 Dynamics of radionuclides in soil 175 Cycling of radionuclides by the soil biota 177 Modelling of radionuclide movement in the soil/plant system 181 Conclusions Manipulation of soil ecology - 'soil biotechnology' 182 Introduction 182 Biofertilisation by rhizobial inoculation 182 Potential for inoculation - temperate and tropical agriculture 182 Rhizobial effectiveness and inoculum production 183 Factors affecting inoculum success 184 Improvement of rhizobial inocula 185 Control of the soil biota 186 Pesticidal control 186 Biological control 196
6 Contents xiii Biofertilisation by mycorrhizal fungal inoculation 198 Potential benefits of mycorrhizal fungal inoculation 198 Ectomycorrhizas 200 Endomycorrhizas 201 Factors affecting the competitiveness of mycorrhizal fungal inocula 202 Conclusions 203 Genetically modified plants and microbes for use in the environment 203 Introduction 203 Microbial symbionts such as N 2 -fixing rhizobia and mycorrhizal fungi 204 Genetic enhancement of the effectiveness of microbial inocula for antagonistic control of soil-borne plant pathogens 205 Cloning of genes involved in the bacterial production of insecticidal toxins 206 Genetic modification of microbial inocula for the production of plant growth regulators 207 Genetic modification of microbial inocula for the detoxification of contaminated soil - bioremediation 207 Soil ecological effects of the use of genetically modified plants and microbes 208 The fate of recombined DNA in soil 210 Conclusions 211 References 212 Further reading 222 Index 231
Interactions Between Microorganisms and Higher Plants from Competition to Symbiosis p. 184
Introduction What Are Soils? p. 3 Introduction p. 3 Soil Genesis p. 4 Rock Weathering or Decay p. 4 Importance of Soil Texture p. 5 Input of Organic Matter into Soils and Aggregation p. 7 Migration Processes
More informationSoil Biology. Chapter 10
Soil Biology Chapter 10 The Sounds of Soil Soil as a Transition Between Aquatic and Aerial System Bacteria in a Drying Environment Wet (open structure) Dry (dense) Holden P.A., J.R. Hunt, and M. K. Firestone,
More informationSoil Biology. The Sounds of Soil. Soils and Water, Spring Lecture 9, Soil Biology 1. Soil as a Transition Between Aquatic and Aerial System
Soil Biology Chapter 10 The Sounds of Soil Soil as a Transition Between Aquatic and Aerial System Lecture 9, Soil Biology 1 Bacteria in a Drying Environment Wet (open structure) Dry (dense) Holden P.A.,
More informationSoil Organisms. Organisms log (# / g) kg / ha
Soil Organisms Soil is home to many different organisms. These represent different kingdoms and range in size from sequoia roots to bacteria. Some produce their own organic structure from inorganic substrates.
More informationSoil Biota and Ecosystem Functioning
2 Soil Biota and Ecosystem Functioning Soil-Habitat Biological activity in soils is mainly concentrated in the top soils. The biological component occupy a small fraction (< 0.5%) of the total soil volume
More informationSuccess Criteria Life on Earth - National 5
Success Criteria Life on Earth - National 5 Colour the box at the side of each objective: RED I don t know much about this or am confused by it. AMBER I know a bit about this but do not feel I know it
More informationWe help people in agriculture grow healthier crops, more efficiently by better managing soil microbiology.
What we do How can we help you? Dr Ash Martin PhD BSc (For) Hons Managing Director Dr Maria Manjarrez-Martinez PhD MSc BSc Director, AnalyticalServices and Research What we do We help people in agriculture
More information1 Towards Ecological Relevance Progress and Pitfalls in the Path Towards an Understanding of Mycorrhizal Functions in Nature... 3 D.J.
Contents Section A: Introduction 1 Towards Ecological Relevance Progress and Pitfalls in the Path Towards an Understanding of Mycorrhizal Functions in Nature... 3 D.J. Read 1.1 Summary.............................
More informationSoil Microbiology. Ambarish Bhuyan Assistant Professor Botany Department MDKG College, Dibrugarh
Soil Microbiology Ambarish Bhuyan Assistant Professor Botany Department MDKG College, Dibrugarh INTRODUCTION Nature of soils Soil arises from the weathering of rocks Soil also produced through the actions
More informationMicrobial Activity in the Rhizosphere
K. G. Mukerji C. Manoharachary J. Singh (Eds.) Microbial Activity in the Rhizosphere With 35 Figures 4y Springer 1 Rhizosphere Biology - an Overview 1 Chakravarthula Manoharachary, Krishna G. Mukerji 1.1
More informationMineral and Organic Components. Soil Organisms, Biology, and Nutrients. Homework III: The State Soil of Florida. Posted on website.
Homework III: The State Soil of Florida Posted on website 5 bonus points Type all answers Soil Organisms, Biology, and Nutrients Mineral and Organic Components Functions of soils: recycler of raw materials
More informationAbout me (why am I giving this talk) Dr. Bruce A. Snyder
Ecology About me (why am I giving this talk) Dr. Bruce A. Snyder basnyder@ksu.edu PhD: Ecology (University of Georgia) MS: Environmental Science & Policy BS: Biology; Environmental Science (University
More informationSOIL ECOLOGY TERMS. From Soil Quality Thunderbook, National Resources Conservation Service, U.S. Department of Agriculture. (2005).
SOIL ECOLOGY TERMS actinomycetes: A large group of bacteria that grow in long filaments that are too small to see without magnification. Actinomycetes generate the smell of healthy soil, and are important
More informationCommunities Structure and Dynamics
Communities Structure and Dynamics (Outline) 1. Community & niche. 2. Inter-specific interactions with examples. 3. The trophic structure of a community 4. Food chain: primary, secondary, tertiary, and
More informationSoil Microbes. Judith Fitzpatrick, Ph.D.
Soil Microbes Judith Fitzpatrick, Ph.D. The Superorganism This chart taken from data of Ingham, R.E. et all 1985 www.jstor.org/stable/1942528 Effect of microbes on weight of plant shoot in mg. Plant +
More informationAssociations between an invasive plant (Taeniatherum caputmedusae, Medusahead) and soil microbial communities
Associations between an invasive plant (Taeniatherum caputmedusae, Medusahead) and soil microbial communities Elise S. Gornish¹, Noah Fierer², Albert Barberán¹ ¹University of California, Davis; ²University
More informationUsing Soil Microbes to Enhance Restoration of Native FL Scrub. Ben Sikes University of Texas at Austin
Using Soil Microbes to Enhance Restoration of Native FL Scrub Ben Sikes University of Texas at Austin Talk Outline The role of soil biota in ecosystem processes and plant Current uses of soil microbes
More informationTreat the Cause not the symptom
Treat the Cause not the symptom A few facts about Novozymes Biologicals Bu sin ess d ivisio n o f No vo zym es w it h it s o w n R& D, Manufacturing, Sales & Marketing, Administration Headquartered in
More information1 Soil Factors Affecting Nutrient Bioavailability... 1 N.B. Comerford
Contents 1 Soil Factors Affecting Nutrient Bioavailability........ 1 N.B. Comerford 1.1 Introduction........................... 1 1.2 Release of Nutrients from the Soil Solid Phase........ 2 1.3 Nutrient
More informationBiostimulants to enhance Nutrient Use Efficiency in Crop Plants
Biostimulants to enhance Nutrient Use Efficiency in Crop Plants Pr. Patrick du Jardin Plant Biology Laboratory Gembloux Agro-Bio Tech, University of Liège, Belgium patrick.dujardin@uliege.be This talk
More informationProkaryotes Vs. Eukaryotes
The Microbial World Prokaryotes Vs. Eukaryotes Mircrobes of the Ocean Primary Producers Are the organisms that produce bio-mass from inorganic compounds (autotrophs). -Photosynthetic autotrophs Phytoplankton
More informationCommunities Structure and Dynamics
Communities Structure and Dynamics (Outline) 1. Community & niche. 2. Inter-specific interactions with examples. 3. The trophic structure of a community 4. Food chain: primary, secondary, tertiary, and
More informationMicrobial Ecology and Microbiomes
PowerPoint Lecture Presentations prepared by Mindy Miller-Kittrell, North Carolina State University Packet #16 Chapter #26 Microbial Ecology and Microbiomes Environmental Microbiology Studies the microorganisms
More informationAnabaena azollae -This relationship is useful in rice-based crop systems throughout Asia.
GLOSSARY Anabaena azollae -This relationship is useful in rice-based crop systems throughout Asia. Azolla-Anabaena symbiosis -A biological nitrogen fixation relationship between the aquatic fern Azolla
More informationLecture 16: Soil Acidity; Introduction to Soil Ecology
Lecture 16: Soil Acidity; Introduction to Soil Ecology Aluminum and Soil Acidity Aluminum Toxicity in Acid Soils Tolerant Sensitive Tolerant Sensitive Plants often are sensitive to the presence of dissolved
More informationSoil fauna-as indicator of soil quality Authors: Sunanda Biswas 1 and Bharat H. Gawade 2
Soil fauna-as indicator of soil quality Authors: Sunanda Biswas 1 and Bharat H. Gawade 2 1 Division of Soil Science and Agricultural Chemistry, ICAR-IARI, New Delhi-110012 2 Quarantine Division, ICAR-National
More informationFRIENDLY FUNGI IN THE GARDEN
FRIENDLY FUNGI IN THE GARDEN All the Little Creatures We Depend On For Life Michele Stanton Extension Agent for Horticulture Kenton County, KY WHAT WE LL TALK ABOUT TODAY Who lives in your soil What roles
More informationAn Introduction to Soil Ecology. November 8, 2004 Allison Hornor Most images in slides from: Dr. Janice Thies
An Introduction to Soil Ecology November 8, 2004 Allison Hornor Most images in slides from: Dr. Janice Thies Relative size of soil organisms Fungal hyphae Microbes on a root surface Bacteria Bacteria adhered
More informationPhenanthrene and pyrene uptake by arbuscular Mycorrhizal Fungi ( ) Buy online at
Mycorrhizal Fungi:: Soil, Agriculture And Environmental Implications (Air, Water And Soil Pollution Science And Technology; Agriculture Issues And Policies) READ ONLINE Phenanthrene and pyrene uptake by
More informationLITHUANIAN UNIVERSITY OF AGRICULTURE FACULTY OF AGRONOMY. Department of Botany STUDY SUBJECT DESCRIPTION FOOD TOXICOLOGY
LITHUANIAN UNIVERSITY OF AGRICULTURE FACULTY OF AGRONOMY Department of Botany STUDY SUBJECT DESCRIPTION FOOD TOXICOLOGY Study level: BSc Number of ECTS credit points: 4,5 Teaching method: Lectures, supported
More information9/8/2017. Bacteria and Archaea. Three domain system: The present tree of life. Structural and functional adaptations contribute to prokaryotic success
5 m 2 m 9/8/2017 Three domain system: The present tree of life Bacteria and Archaea Chapter 27 Structural and functional adaptations contribute to prokaryotic success Unicellular Small Variety of shapes
More information(DMB 01) M.Sc. (Previous) DEGREE EXAMINATION, DECEMBER First Year. Microbiology. Paper I INTRODUCTION TO MICROORGANISMS
wk 7 (DMB 01) Paper I INTRODUCTION TO MICROORGANISMS PART A (5 8 = 40 marks) 1. Explain the growth of microbiology in the twentieth century. 2. Describe the structure of eukaryotic cell with a neat-labeled
More informationCommunities Structure and Dynamics
Communities Structure and Dynamics (Outline) 1. Community & niche. 2. Inter-specific interactions with examples. 3. The trophic structure of a community 4. Food chain: primary, secondary, tertiary, and
More informationAGR1006. Assessment of Arbuscular Mycorrhizal Fungal Inoculants for Pulse Crop Production Systems
AGR1006 Assessment of AMF Inoculants for pulse crop production systems 1 AGR1006 Assessment of Arbuscular Mycorrhizal Fungal Inoculants for Pulse Crop Production Systems INVESTIGATORS Principal Investigator:
More informationS Illustrate and explain how carbon, nitrogen, and oxygen are cycled through an ecosystem.
Biogeochemical Cycles S2-1-01 Illustrate and explain how carbon, nitrogen, and oxygen are cycled through an ecosystem. Biogeochemical Cycles Let s take a closer look at the interactions between LIVING
More informationTitle: Plant Nitrogen Speaker: Bill Pan. online.wsu.edu
Title: Plant Nitrogen Speaker: Bill Pan online.wsu.edu Lesson 2.3 Plant Nitrogen Nitrogen distribution in the soil-plantatmosphere Chemical N forms and oxidation states Biological roles of N in plants
More informationLecture 24 Plant Ecology
Lecture 24 Plant Ecology Understanding the spatial pattern of plant diversity Ecology: interaction of organisms with their physical environment and with one another 1 Such interactions occur on multiple
More informationMichigan Curriculum Framework
Elementary Reference Content Standards Wetlands (with teacher Rainforest (with teacher 1. All students will apply an understanding of cells to the functioning of multicellular organisms; and explain how
More informationCommercial microbial inoculants with endophytes (an overview)
Commercial microbial inoculants with endophytes (an overview) Matthias Döring INOQ GmbH, Germany Vorname Name www.inoq.de 1 Inquiries about products with ENDOPHYTES by: EU commission of agriculture German
More information+ 3 can also be bound to the soil complex,
Glossary Acidification: decrease in the buffer capacity, causing the ph to decrease. Additional scope: The additional scope shows the conditions whereby the habitat type cannot be permanently maintained
More informationLidia Sas Paszt The Rhizosphere Laboratory, Research Institute of Horticulture, Skierniewice, Poland,
Lidia Sas Paszt lidia.sas@inhort.pl The Rhizosphere Laboratory, Research Institute of Horticulture, Skierniewice, Poland, www.inhort.pl - Research on the role of roots & rhizosphere in growth & yelding
More informationUnderstory loss, reduced diversity
Understory loss, reduced diversity Characteristics of an Urban Ecosystem Fauna Generalists Predators Non-native Species Monk Parakeets Congress Avenue Bridge 1.5-2 Million MexicanFree Free-tailed Bats
More informationMycorrhizal Fungi. Symbiotic relationship with plants -- form sheath around fine roots and extend hyphae into soil and sometimes into root cells
Mycorrhizal Fungi Symbiotic relationship with plants -- form sheath around fine roots and extend hyphae into soil and sometimes into root cells Mycorrhizae transfer nutrients to roots (important in infertile
More informationPlant Nutrition and Transport. Chapter 29
Plant Nutrition and Transport Chapter 29 Overview: Underground Plants The success of plants depends on their ability to gather and conserve resources from their environment. The transport of materials
More informationThe Prokaryotic World
The Prokaryotic World A. An overview of prokaryotic life There is no doubt that prokaryotes are everywhere. By everywhere, I mean living in every geographic region, in extremes of environmental conditions,
More informationAssessment Schedule 2016 Biology: Demonstrate understanding of biological ideas relating to micro-organisms (90927)
NCEA Level 1 Biology (90927) 2016 page 1 of 5 Assessment Schedule 2016 Biology: Demonstrate understanding of biological ideas relating to micro-organisms (90927) Evidence Statement Question One No response
More informationOntario Science Curriculum Grade 9 Academic
Grade 9 Academic Use this title as a reference tool. SCIENCE Reproduction describe cell division, including mitosis, as part of the cell cycle, including the roles of the nucleus, cell membrane, and organelles
More informationDoug Kremer President Mike Kelly Director Turf Operations. Maximizing Earth s Potential
Doug Kremer President Mike Kelly Director Turf Operations Company Background Founded in 1998 to develop microbiological products - Integrated Fertility Management (IFM) Convert atmospheric nitrogen to
More informationBIOS 3010: Ecology Lecture 12: Decomposition and Detritivory: 2. Decomposers and detritivores: 3. Resources of decomposers: Lecture summary:
BIOS 3010: Ecology Lecture 12: Decomposition and Detritivory: Lecture summary: Decomposers & detritivores: Resources. Characteristics. Model of detritivory. Size of detritivores. Diversity & abundance.
More informationAssociative and Endophytic Nitrogen-fixing Bacteria and Cyanobacterial Associations
Associative and Endophytic Nitrogen-fixing Bacteria and Cyanobacterial Associations Edited by Claudine Elmerich Institut Pasteur, Paris, France and William E. Newton Department of Biochemistry Virginia
More information21-3 Ecology of Fungi Slide 1 of 23
1 of 23 21-3 Ecology of Fungi The oldest known fungi fossils are about 230 million years old. Fungi may have helped early plants obtain nutrients and may have been essential to plants colonization of the
More informationNutritional Adaptations of Plants *
OpenStax-CNX module: m44718 1 Nutritional Adaptations of Plants * OpenStax This work is produced by OpenStax-CNX and licensed under the Creative Commons Attribution License 3.0 By the end of this section,
More informationDan Dinelli, CGCS North Shore Country Club
Dan Dinelli, CGCS North Shore Country Club The entire system of factors that affect or are affected by plants, including: microbial communities (microbiomes) of the plants and soils. Animals, insects,
More informationFeedback between nutrient availability, NPP and N release
Feedback between nutrient availability, NPP and N release 1 Redfield ratios A typical plant = 45% C, 1.5% N, 0.2%P or C:N = 30 : 1 and C:P = 225 : 1 or C:N:P = 225 : 7.5 : 1 N:P = 7.5 : 1 Mobility of nutrients
More informationSoil biology: Important relationship with soil quality
nasih@ugm.ac.id Soil biology: Important relationship with soil quality - Organic matter - Residue decomposition - Soil structure - Nutrient cycling - 1 g of soil has 100,000,000 bacteria SOIL IS HABITAT
More informationTest Bank for Microbiology A Systems Approach 3rd edition by Cowan
Test Bank for Microbiology A Systems Approach 3rd edition by Cowan Link download full: http://testbankair.com/download/test-bankfor-microbiology-a-systems-approach-3rd-by-cowan/ Chapter 1: The Main Themes
More informationPlant roots and practical value of plant root symbionts
Plant roots and practical value of plant root symbionts Conference at Aleksandro Stulginskio University, Akademija 2 May 2016 Plant Roots: Biology, Morphology, and Functions Priv. Doz. Dr. habil Ewald
More informationWhy Should You Consider Using Mycorrhizae? Northeast Greenhouse Conference 2018 Mycorrhizal Applications LLC 1
Why Should You Consider Using Mycorrhizae? Mycorrhizal Applications LLC 1 A mutually beneficial relationship, which is characterized by movement of carbon flows to the fungus and inorganic nutrients move
More informationQuestion Answer Marks Guidance 1 (a) 1. 1 CREDIT herbivore / primary consumer,energy. trophic level 2 energy x 100 ; x 100 ; producer energy
1 (a) 1 1 CREDIT herbivore / primary consumer,energy trophic level 2 energy x 100 ; x 100 ; producer energy trophic level 1 energy Plus any 3 of the following: CREDIT sample figures. e.g. if producer energy
More informationSoil and Plant Nutrition
Chapter 37 Soil and Plant Nutrition PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley with contributions from Joan
More informationBIOL 695 NITROGEN. Chapter 7 MENGEL et al, 5th Ed NITROGEN CYCLE. Leaching
BIOL 695 NITROGEN Chapter 7 MENGEL et al, 5th Ed NITROGEN CYCLE Leaching INDUSTRIAL N FIXATION High energy requirement Haber-Bosch Process Natural gas - High Temperature & pressure N 2 + 3H 2 2 NH 3 BIOLOGICAL
More informationIf you are searched for a book by Gisela Cuenca;Alicia Caceres;Giovanny Oirdobro;Zamira Hasmy;Carlos Urdaneta Arbuscular mycorrhizae as an
Arbuscular Mycorrhizae As An Alternative For A Sustainable Agriculture In Tropical Areas/Las Micorrizas Arbusculares Como Alternativa Para Una... Tropicais.: An Article From: Interciencia [HTML] [Dig By
More informationIntro to Prokaryotes Lecture 1 Spring 2014
Intro to Prokaryotes Lecture 1 Spring 2014 Meet the Prokaryotes 1 Meet the Prokaryotes 2 Meet the Prokaryotes 3 Why study prokaryotes? Deep Time 4 Fig. 25.7 Fossilized stromatolite (above) and living stromatolite
More informationEcology Review. 1. Fly larvae consume the body of a dead rabbit. In this activity, they function as
Name: ate: 1. Fly larvae consume the body of a dead rabbit. In this activity, they function as. producers. scavengers. herbivore. parasites 4. n earthworm lives and reproduces in the soil. It aerates the
More informationBOTANY: COURSE OBJECTIVE AND OUTCOME KHEMUNDI DEGREE COLLEGE, DIGAPAHANDI
BOTANY: COURSE OBJECTIVE AND OUTCOME KHEMUNDI DEGREE COLLEGE, DIGAPAHANDI SEM-1 (CREDITS-6: THEORY 4, PRACTICAL - 2) CORE - 1 MICROBIOLOGY AND PHYCOLOGY 1. To introduce the students about Bacteria and
More informationAgronomy 485/585 Test #1 October 2, 2014
Agronomy 485/585 Test #1 October 2, 2014 Name Part I. Circle the one best answer (2 points each). 1. The most important microbial group in promoting soil structure likely is the. a) actinomycetes b) algae
More informationNutrient Cycling in Land Plants
Nutrient Cycling in Land Plants OCN 401 - Biogeochemical Systems 7 September 2017 Reading: Chapter 6 2017 Frank Sansone Outline 1. Plant nutrient requirements and sources 2. Nutrient uptake by plants Nutrient
More informationSun. Photosynthesis (performed by plants, algae, and some bacteria) Respiration (performed by all organisms) 6 O 2 6 CO 2.
Photosynthesis (performed by plants, algae, and some bacteria) Sun 6 O 6 CO 6 H O C 6 H O 6 (glucose) Solar energy + 6 H O + 6 CO C 6 H O 6 + 6 O Energy Respiration (performed by all organisms) 6 O 6 CO
More informationTest Bank for Microbiology A Systems Approach 3rd edition by Cowan
Test Bank for Microbiology A Systems Approach 3rd edition by Cowan Link download full: https://digitalcontentmarket.org/download/test-bank-formicrobiology-a-systems-approach-3rd-edition-by-cowan Chapter
More information20 Viruses and Prokaryotes Bacteria
20 Viruses and Prokaryotes 20.2 - Bacteria Classifying Prokaryotes Prokaryote unicellular organisms that lacks a nucleus Most abundant and widespread organisms on Earth Divided into two groups Bacteria
More informationQ1) Germ theory of diseases. Q2) Louis Pasteur. Q3) Bacillus. Q4) Cyanobacteria. Q5) Viroids. Q6) Prions Q7) TMV Q8) T4
(DMB01) ASSIGNMENT - 1 Introduction Microorganisms Q1) Germ theory of diseases Q2) Louis Pasteur Q3) Bacillus Q4) Cyanobacteria Q5) Viroids Q6) Prions Q7) TMV Q8) T4 (DMB01) ASSIGNMENT - 2 Introduction
More informationfor GREENHOUSES GREENHOUSE Why are Mycorrhizae Important? Benefit to Plants
GREENHOUSE for GREENHOUSES Why are Mycorrhizae Important? Mycorrhizal fungi are essential to living soils, and allowed plants to colonize the surface of our planet around 450 million years ago. More than
More informationNutrient Cycling in Land Vegetation and Soils
Nutrient Cycling in Land Vegetation and Soils OCN 401 - Biogeochemical Systems 13 September 2012 Reading: Schlesinger, Chapter 6 Outline 1. The annual Intrasystem Nutrient Cycle 2. Mass balance of the
More informationFully approved by The South African Department of Agriculture, Forestry & Fisheries Registration Number: B4807
ExploGrow is a revolutionary 100% organic biofertiliser in a league of its own, comprising 17 highly complex micro-organisms, environmentally friendly soil ameliorant and plant growth stimulant, with increased
More informationSOM. Bugs! Plants are a major source of SOM First remember that SOM is food ROOT EXUDATES. Rhizosphere. Microbes
SOM Plants are a major source of SOM First remember that SOM is food Soil organic matter ROOT EXUDATES 10-20% OF PLANT PHOTOSYNTHESIS GOOD EATING Rhizosphere Root zone - area of greatest microbial activity
More informationCore Competencies. All teachers of biology should be prepared to lead students to understand:
Effective October 15, 2012 505-3-.28 SCIENCE EDUCATION PROGRAM (1) Purpose. This rule states field-specific content standards for approving programs that prepare individuals to teach broad field science
More informationNutrient Cycling in Land Plants
Nutrient Cycling in Land Plants OCN 401 - Biogeochemical Systems 10 September 2015 Reading: Chapter 6 2015 Frank Sansone Outline 1. Plant nutrient requirements and sources 2. Nutrient uptake by plants
More informationPHOTOSYNTHESIS PHOTOSYNTHESIS
PHOTOSYNTHESIS PHOTOSYNTHESIS Life Processes are the basic functions performed by living organisms to maintain their life on this earth. Nutrition is the process by which the organisms can assimilate and
More informationBiology IA & IB Syllabus Mr. Johns/Room 2012/August,
Biology IA & IB Syllabus Mr. Johns/Room 2012/August, 2017-2018 Description of Course: A study of the natural world centers on cellular structure and the processes of life. First semester topics include:
More informationShirley E. Clark, Ph.D., P.E., D. WRE Penn State Harrisburg. Robert Pitt, Ph.D., P.E., BCEE, D. WRE University of Alabama
Shirley E. Clark, Ph.D., P.E., D. WRE Penn State Harrisburg Robert Pitt, Ph.D., P.E., BCEE, D. WRE University of Alabama Site Stormwater Characteristics and Permit Limits Analytes on Permit 90 th percentile
More informationNutrition and Transport in Plants Chapter 26. Outline
Nutrition and Transport in Plants Chapter 26 Outline Essential Inorganic Nutrients Soil Formation Soil Profiles Soil Erosion Mineral Uptake Transport Mechanisms Water Organic Nutrients 1 2 Plant Nutrition
More informationUnit D: Controlling Pests and Diseases in the Orchard. Lesson 5: Identify and Control Diseases in the Orchard
Unit D: Controlling Pests and Diseases in the Orchard Lesson 5: Identify and Control Diseases in the Orchard 1 Terms Abiotic disease Bacteria Biotic diseases Cultural disease control Disease avoidance
More informationLAND USE, LAND COVER AND SOIL SCIENCES Vol. VI Soil Biology and Microbiology - Andreas de Neergaard
SOIL BIOLOGY AND MICROBIOLOGY Andreas de Neergaard Department of Agricultural Sciences, Plant and Soil Science, Royal Veterinary and Agricultural University, Thorvalsenvej, 40, Frederiksberg, Denmark.
More informationBiogeography. Fig. 12-6a, p. 276
Biogeography Fig. 12-6a, p. 276 Biogeographic Processes Energy and Matter Flow in Ecosystems Ecological Biogeography Ecological Succession Historical Biogeography Biogeographic Processes Biogeography examines
More informationKey Concepts 1. What different levels of organization do ecologists study? 2. What methods are used to study ecology?
Chapter 3 The Biosphere 3 1 What is Ecology? 1. What different levels of organization do ecologists study? 2. What methods are used to study ecology? Ecology study of interactions between organisms and
More informationOCR Biology Checklist
Topic 1. Cell level systems Video: Eukaryotic and prokaryotic cells Compare the structure of animal and plant cells. Label typical and atypical prokaryotic cells. Compare prokaryotic and eukaryotic cells.
More informationOCR Biology Checklist
Topic 1. Cell level systems Video: Eukaryotic and prokaryotic cells Compare the structure of animal and plant cells. Label typical and atypical prokaryotic cells. Compare prokaryotic and eukaryotic cells.
More informationCalifornia Biology Handbook... CA1
California Biology Handbook........................... CA1 The California Biology Handbook includes correlations of the Biology/Life Science standards to the content in Biology: The Dynamics of Life. Also
More informationBiogeographic Processes
Biogeographic Processes Energy and Matter Flow in Ecosystems Ecological Biogeography Ecological Succession Historical Biogeography Biogeographic Processes Biogeography examines the distribution of plants
More informationEvaluation and selection of efficient strains of AM fungi & Rhizobium for Acacia nilotica and Ailanthus excelsa in western Rajasthan.
Forestry Research Project in Thrust Areas/Theme Wise S. No. Thrust Area (Theme ) Project Title Objective Institute 1. Forest 2. Forest Evaluation and selection of efficient strains of AM fungi & Rhizobium
More informationThe Tree of Life. Metabolic Pathways. Calculation Of Energy Yields
The Tree of Life Metabolic Pathways Calculation Of Energy Yields OCN 401 - Biogeochemical Systems 8/27/09 Earth s History (continental crust) 170 Oldest oceanic crust Ga = billions of years ago The Traditional
More informationYEAR 5- Natural Sciences PROGRAMACION 2017/18
YEAR 5- Natural Sciences PROGRAMACION 2017/18 Assessment: End of term topic tests Weekly quiz on topic Lesson plenary to ascertain if pupils are grasping concepts Oral communication with regards to topics
More informationChapter 10: Soil Organisms
Chapter 10: Soil Organisms Objectives: 1. appreciate the diversity of soil organisms 2. understand the relationship between soil biodiversity and soil functions Key terms and Concepts: Mycorrhizae Rhizobium
More informationRole of mycorrhizal fungi in belowground C and N cycling
Role of mycorrhizal fungi in belowground C and N cycling Doc. Jussi Heinonsalo Department of Forest Sciences, University of Helsinki Finnish Meteorological Institute Finland The aim and learning goals
More informationAQA Biology A-level Topic 5: Energy transfers in and between organisms
AQA Biology A-level Topic 5: Energy transfers in and between organisms Notes Photosynthesis Photosynthesis is a reaction in which light energy is used to produce glucose in plants. The process requires
More informationPlant/Ecosystems Webquest Log on to
Name Period Plant/Ecosystems Webquest Log on to www.discoveryeducation.com Username Password Click on My Content Click on the folder Ecosystem Click on A Biome to Call Home 1. Read Intro Define biome-
More informationGENERAL ECOLOGY STUDY NOTES
1.0 INTRODUCTION GENERAL ECOLOGY STUDY NOTES A community is made up of populations of different organisms living together in a unit environment. The manner in which these organisms relate together for
More informationNutritional Adaptations of Plants *
OpenStax-CNX module: m47408 1 Nutritional Adaptations of Plants * Robert Bear David Rintoul Based on Nutritional Adaptations of Plants by OpenStax This work is produced by OpenStax-CNX and licensed under
More information7. M2/1 Subfamily Caesalpinoideae. A flower of Bauhinia sp. shows floral morphology typical of the species in the subfamily Caesalpinoideae.
SLIDE NOTES AND EXPLANATIONS 1. M1/1 The Nitrogen Cycle. Gaseous nitrogen in the air is converted into a biologically useful form through biological nitrogen fixation in legumes and through chemical fixation
More informationUnit G: Pest Management. Lesson 2: Managing Crop Diseases
Unit G: Pest Management Lesson 2: Managing Crop Diseases 1 Terms Abiotic disease Bacteria Biotic disease Cultural disease control Disease avoidance Disease resistance Disease tolerance Fungi Infectious
More information