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Books on the topic 'Biotic and abiotc'

Author: Grafiati
Published: 4 June 2021
Last updated: 8 February 2022

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1

Brannon, James M. Abiotic and biotic TNT transformations. Vicksburg, Miss: U.S. Army Engineer Waterways Experiment Station, 1997.

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2

Vats, Sharad, ed. Biotic and Abiotic Stress Tolerance in Plants. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-9029-5.

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3

Tóth, Gábor. Geomorphological environments: Research methods on biotic and abiotic environments. Stuttgart: Gebrüder Borntraeger, 2012.

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4

Al-Khayri, Jameel M., Shri Mohan Jain, and Dennis V. Johnson, eds. Advances in Plant Breeding Strategies: Agronomic, Abiotic and Biotic Stress Traits. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-22518-0.

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5

Mohamed, Heba I., Hossam El-Din Saad El-Beltagi, and Kamel A. Abd-Elsalam, eds. Plant Growth-Promoting Microbes for Sustainable Biotic and Abiotic Stress Management. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-66587-6.

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6

FRaser, Brian Gordon. Boundary flux of the hyporheic zone as determined by biotic and abiotic indicators. Ottawa: National Library of Canada, 1995.

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7

Gribko, Linda S. Biotic and abiotic mechanisms in the establishment of northern red oak seedlings: A review. Newtown Square, PA: USDA Forest Service, Northeastern Research Station, 2002.

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8

United States. Bonneville Power Administration. Division of Fish and Wildlife. A literature review, bibliographic listing, an organization of selected references relative to Pacific salmon (Oncorhynchus spp.) and abiotic and biotic attributes of the Columbia River estuary and adjacent marine and riverine environs for various historical periods: Measure 7.1A of the Northwest Power Planning Council's 1994 fish and wildlife program : report 4 of 4 : final report. Portland, OR: Bonneville Power Administration, 1996.

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9

Bosco de Oliveira, Alexandre, ed. Abiotic and Biotic Stress in Plants. IntechOpen, 2019. http://dx.doi.org/10.5772/intechopen.77845.

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10

Türkoğlu, Muhammet, Umur Önal, and Ali Ismen, eds. Marine Ecology - Biotic and Abiotic Interactions. InTech, 2018. http://dx.doi.org/10.5772/intechopen.69018.

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11

Kabata-Pendias, Alina, and Barbara Szteke. Trace Elements in Abiotic and Biotic Environments. Taylor & Francis Group, 2015.

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12

Kabata-Pendias, Alina. Trace Elements in Abiotic and Biotic Environments. Taylor & Francis, 2015.

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13

Vats, Sharad. Biotic and Abiotic Stress Tolerance in Plants. Springer, 2018.

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14

Kabata-Pendias, Alina, and Barbara Szteke. Trace Elements in Abiotic and Biotic Environments. Taylor & Francis Group, 2015.

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15

Abiotic and Biotic Stresses in Soybean Production. Elsevier, 2016. http://dx.doi.org/10.1016/c2014-0-00087-1.

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16

Trace Elements in Abiotic and Biotic Environments. Taylor & Francis Group, 2015.

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17

Kabata-Pendias, Alina, and Barbara Szteke. Trace Elements in Abiotic and Biotic Environments. CRC Press, 2015. http://dx.doi.org/10.1201/b18198.

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18

Biotic and Abiotic Stress Tolerance in Plants. Springer, 2019.

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19

Kabata-Pendias, Alina, and Barbara Szteke. Trace Elements in Abiotic and Biotic Environments. Taylor & Francis Group, 2015.

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20

Kabata-Pendias, Alina, and Barbara Szteke. Trace Elements in Abiotic and Biotic Environments. Taylor & Francis Group, 2015.

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21

Biotic and Abiotic Stress Responses in Crop Plants. MDPI, 2019. http://dx.doi.org/10.3390/books978-3-03897-464-2.

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22

The Lake Foodweb: Modelling Predation and Abiotic/Biotic Interactions. Backhuys Publishers, 2002.

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23

Moustakas, Michael, Angeles Calatayud, and Lucia Guidi, eds. Chlorophyll Fluorescence Imaging Analysis in Biotic and Abiotic Stress. Frontiers Media SA, 2021. http://dx.doi.org/10.3389/978-2-88966-867-0.

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24

Physiological Responses to Abiotic and Biotic Stress in Forest Trees. MDPI, 2019. http://dx.doi.org/10.3390/books978-3-03921-515-7.

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25

Brönmark, Christer, and Lars-Anders Hansson. The Biology of Lakes and Ponds. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198713593.001.0001.

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The Biology of Lakes and Ponds focuses on the interactions between the abiotic frame, such as turbulence, temperature, pH and nutrients, and the organisms, including interactions with and among organisms at the individual, population and community level. The book fills this niche between traditional limnology and evolutionary ecology by focusing on physiological, morphological and behavioural adaptations among organisms to abiotic and biotic factors and how interactions between biotic processes and abiotic constraints determine the structure and dynamics of lake and pond systems. In addition, the book describes and analyses the causes and consequences of human activities on freshwater organisms and ecosystems and covers longstanding environmental threats, such as eutrophication and acidification, as well as novel threats, such as biodiversity loss, use of everyday chemicals and global climate change. However, also signs of improvement and the possibilities to restore degraded ecosystems are discussed and provide hope for future generations.
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26

Johnson, Dennis V., Shri Mohan Jain, and Jameel M. Al-Khayri. Advances in Plant Breeding Strategies: Agronomic, Abiotic and Biotic Stress Traits. Springer, 2018.

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27

Johnson, Dennis V., Shri Mohan Jain, and Jameel M. Al-Khayri. Advances in Plant Breeding Strategies: Agronomic, Abiotic and Biotic Stress Traits. Springer, 2016.

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28

Abiotic and Biotic Stresses in Soybean Production: Soybean Production Volume 1. Academic Press, 2016.

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29

Jeandroz, Sylvain, and OIivier Lamotte, eds. Plant Responses to Biotic and Abiotic Stresses: Lessons from Cell Signaling. Frontiers Media SA, 2017. http://dx.doi.org/10.3389/978-2-88945-356-6.

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30

Shanker, Arun K., and Chitra Shanker, eds. Abiotic and Biotic Stress in Plants - Recent Advances and Future Perspectives. InTech, 2016. http://dx.doi.org/10.5772/60477.

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31

Kumar, Vivek, Manoj Kumar, Annamalai Muthusamy, and Neera Bhalla-Sarin. In vitro Plant Breeding towards Novel Agronomic Traits: Biotic and Abiotic Stress Tolerance. Springer, 2019.

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32

Kumar, Vivek, Manoj Kumar, and Annamalai Muthusamy. In vitro Plant Breeding towards Novel Agronomic Traits: Biotic and Abiotic Stress Tolerance. Springer, 2019.

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33

Morel, Jean-benoit, Muthappa Senthil-Kumar, and Elsa Ballini, eds. Biological Mechanisms of Plant Interactions With a Combination of Biotic and Abiotic Stresses. 9782889459520, 2019. http://dx.doi.org/10.3389/978-2-88945-952-0.

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34

M, Huang P., ed. Soil abiotic and biotic interactions and impact on the ecosystem and human welfare. Enfield, (NH): Science Publishers, 2004.

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35

Brönmark, Christer, and Lars-Anders Hansson. Biotics: Competition, Herbivory, Predation, Parasitism and Symbiosis. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198713593.003.0004.

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If biological interactions, such as competition and predation, have any effect on population dynamics, or if abiotic factors alone determine which organisms, how many of them do we see in a specific ecosystem, was for long a controversial question. This chapter aims at providing the basis for the understanding of biological interactions, as well as showing ample examples of how important those interactions are in shaping both population dynamics and ecosystem function of natural systems. In addition to the many examples, the reader is introduced to the history and the theoretical basis for biological interactions.
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36

Fuji, Takashi. Biotic and abiotic factors influencing the bioavailability of sediment-associated phenanthrene to marine amphipods. 1997.

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37

Arnott, Shelley E. The influence of biotic and abiotic factors on zooplankton community structure in fishless lakes. 1992.

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38

Brönmark, Christer, and Lars-Anders Hansson. Introduction. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198713593.003.0001.

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The chapter introduces the reader to the book structure, including the overall topics the abiotic frame, the organisms, biotics, food web interactions and biodiversity and environmental threats. In addition to laying out the structure, this chapter brings up some overarching concepts such as the niche, generalists versus specialists and factors determining the distribution of organisms in natural ecosystems.
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39

Lippmann, Morton, and Richard B. Schlesinger. Fate of Chemicals. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780190688622.003.0005.

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This chapter discusses how, following their release into the environment, chemicals may be converted into different forms and/or transferred within and between the atmosphere, hydrosphere, lithosphere, and biosphere. It reviews the physical and chemical processes by which specific pollutants and classes of pollutions may be altered and ultimately dispersed within each of the components of the environment. The role of biogeochemical cycles in the movement of pollutants from the abiotic to the biotic environment is reviewed. Ultimate sinks for pollutants are discussed as are pollutant residues in the environment.
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40

Borchers, Jeffrey G. Physical processes affecting soil biotic and abiotic responses to disturbance in forest ecosystems of southwestern Oregon. 1990.

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41

Yaish, Mahmoud W., Heribert Hirt, and Barbara Hohn, eds. Epigenetic Modifications Associated with Abiotic and Biotic Stresses in Plants: An Implication for Understanding Plant Evolution. Frontiers Media SA, 2018. http://dx.doi.org/10.3389/978-2-88945-381-8.

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42

Geyer, Melora Arnason. Autecological studies of two annual herbs, Senecio sylvaticus and Epilobium paniculatum: Effects of biotic and abiotic factors. 1995.

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43

Sliva, Lucie. Exploration of riffle scale influences of biotic and abiotic variables on microbial communities of the hyporheic zone. 2003, 2003.

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44

Gujar, G., Y. Andi Trisyono, and Mao Chen, eds. Genetically Modified Crops in Asia Pacific. CSIRO Publishing, 2021. http://dx.doi.org/10.1071/9781486310913.

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Meeting future food needs without compromising environmental integrity is a central challenge for agriculture globally but especially for the Asia Pacific region – where 60% of the global population, including some of the world’s poorest, live on only 30% of the land mass. To guarantee the food security of this and other regions, growers worldwide are rapidly adopting genetically modified (GM) crops as the forerunner to protect against many biotic and abiotic stresses. Asia Pacific countries play an important role in this, with India, China and Pakistan appearing in the top 10 countries with acreage of GM crops, primarily devoted to Bt cotton. Genetically Modified Crops in Asia Pacific discusses the progress of GM crop adoption across the Asia Pacific region over the past two decades, including research, development, adoption and sustainability, as well as the cultivation of insect resistant Bt brinjal, drought-tolerant sugarcane, late blight resistant potato and biotech rice more specific to this region. Regulatory efforts of the Asia Pacific member nations to ensure the safety of GM crops to both humans and the environment are also outlined to provide impetus in other countries initiating biotech crops. The authors also probe into some aspects of gene editing and nanobiotechnology to expand the scope into next generation GM crops, including the potential to grow crops in acidic soil, reduce methane production, remove poisonous elements from plants and improve overall nutritional quality. Genetically Modified Crops in Asia Pacific provides a comprehensive reference not only for academics, researchers and private sectors in crop systems but also policy makers in the Asia Pacific region. Beyond this region, readers will benefit from understanding how GM crops have been integrated into many different countries and, in particular, the effects of the take-up of GM cropping systems by farmers with different socioeconomic backgrounds.
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45

Krantzberg, Gail Barbara. A study of the role of biotic and abiotic factors in modifying metal accumulation by "Chironomus" (Diptera: chironomidae). 1987.

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46

Jurgensen, Martin F., Alan E. Harvey, J. Michael Geist, Gerald I. McDonald, Patrick H. Cochran, Darlene Zabowski, and Robert T. Meurisse. Biotic and Abiotic Processes in Eastside Ecosystems: The Effects of Management on Soil Properties, Processes, and Productivity (PNW-GTR-323). Diane Pub Co, 1994.

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47

Augustinus, P. G. E. F., Mees R. P. R, and Prins M, eds. Biotic and abiotic components of the landscapes of Saba (Netherlands Antilles): Report of an integrated research in botany and physical geography. 2nd ed. Utrecht, Netherlands: Laboratory for Physical Geography, University of Utrecht, 1985.

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48

Havstad, Kris M., Laura F. Huenneke, and William H. Schlesinger, eds. Structure and Function of a Chihuahuan Desert Ecosystem. Oxford University Press, 2006. http://dx.doi.org/10.1093/oso/9780195117769.001.0001.

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The Jornada Basin LTER is located in the Chihuahuan Desert, the largest in North America. This region of south central New Mexico has a history of nearly 100 years as the basis for scientific research. This work gives a thorough, encompassing review of the tremendous array of observations resulting from experiments conducted in this ecosystem. Beginning with thorough descriptions of the most salient features of the region, the book then reviews a wide range of archived and active data sets on a diversity of biotic and abiotic features. It next presents a syntheses of important topics including livestock grazing and remediation efforts. A concluding chapter provides a synthesis of the principles that have emerged from this body of work, and how these relate to the broader fields of ecology and natural resource management. It concludes with recommendations for future research directions. The insightful views expressed in this volume should guide management of arid landscapes globally. This is the sixth volume in the Long Term Ecological Network Series.
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49

Carrier, Tyler J., Adam M. Reitzel, and Andreas Heyland, eds. Section 1 Summary—Evolutionary Origins and Transitions in Developmental Mode. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198786962.003.0006.

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Abiotic variables and biotic interactions can act on variation in life history traits, ultimately leading to divergence in reproductive mode. Marine invertebrates have a remarkable diversity in such strategies, sometimes even between closely related species. It is this natural diversity that lends itself to employing a powerful comparative approach, both for particular morphological characteristics as well as molecular signatures from developmental genes. For example, complex life histories, where a larval stage is interposed between the embryo and juvenile, likely represent the product of numerous selection pressures, historical and current, that have shaped the diversity of larval stages in extant marine species. In fact, the very question about “what is a larva?” has to be addressed, as it is so intimately connected to bentho-planktonic life cycle and metamorphosis. Furthermore, novel larval types have evolved in particular lineages and larvae have been secondarily lost in others. This in itself creates an interesting and exciting playground to test evolutionary developmental hypotheses....
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50

Augustinus, P. G. E. F., Mees R. P. R, and Prins M, eds. Biotic and abiotic components of the landscapes of St. Eustatius (Netherlands Antilles): Report of an integrated research in botany and physical geography. 2nd ed. Utrecht, Netherlands: Natuurwetenschappelijke Studiekring voor Suriname en de Nederlandse Antillen, 1985.

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