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Books on the topic 'Terrestrial invertebrate'

Author: Grafiati
Published: 14 March 2023

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1

Gunawardene, Nihara R. The terrestrial invertebrate fauna of Barrow Island, Western Australia. Perth, Western Australia: Western Australian Museum, 2013.

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2

Johnson, Scott N., and T. Hefin Jones, eds. Global Climate Change and Terrestrial Invertebrates. Chichester, UK: John Wiley & Sons, Ltd, 2017. http://dx.doi.org/10.1002/9781119070894.

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3

Hopkin, Stephen P. Ecophysiology of metals in terrestrial invertebrates. London: Elsevier Applied Science, 1989.

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4

Scudder, Geoffrey. Terrestrial and freshwater invertebrates of British Columbia: Priorities for inventory and descriptive research. Victoria, B.C: Province of British Columbia, Ministry of Forests Research Program, 1996.

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5

Tilling, S. M. A key to the major groups of British terrestrial invertebrates. Shrewsbury: Field Studies Council, 1987.

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6

Harvey, Mark S. Worms to wasps: An illustrated guide to Australia's terrestrial invertebrates. Melbourne: Oxford University Press, 1989.

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7

Tilling, Stephen. A key to the major groups of British terrestrial invertebrates. Telford: FSC, 2014.

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8

Langor, David W., and Jon Sweeney, eds. Ecological Impacts of Non-Native Invertebrates and Fungi on Terrestrial Ecosystems. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-1-4020-9680-8.

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9

Jon, Sweeney, and SpringerLink (Online service), eds. Ecological Impacts of Non-Native Invertebrates and Fungi on Terrestrial Ecosystems. Dordrecht: Springer Netherlands, 2009.

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10

Scudder, G. G. E. An annotated systematic list of the potentially rare and endangered freshwater and terrestrial invertebrates in British Columbia. [Victoria, B.C.]: ESBC, Entomological Society of British Columbia, 1994.

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11

Scudder, Geoffrey. An annotated systematic list of the potentially rare and endangered freshwater and terrestrial invertebrates in British Columbia. [Victoria, B.C.]: ESBC, Entomological Society of British Columbia, 1994.

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12

Scudder, G. G. E. An annotated systematic list of the potentially rare and endangered freshwater and terrestrial invertebrates in British Columbia. [Victoria, B.C.]: ESBC, Entomological Society of British Columbia, 1994.

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13

Gärdenfors, Ulf. Impact of airborne pollution on terrestrial invertebrates: With particular reference to molluscs. Solna: National Swedish Environment Protection Board, 1987.

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14

Ramsay, G. W. Bibliography of New Zealand terrestrial invertebrates, 1775-1985, and guide to the associated information retrieval database BUGS. Auckland, N.Z: Entomological Society of New Zealand, 1992.

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15

Larson, David. Concentration of the pesticide Diazinon in terrestrial invertebrates collected from juvenile European starlings. Bellingham, Wash: Huxley College of Environmental Studies, Western Washington University, 1990.

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16

V, Borges Paulo A., Azores. Direcção Regional do Ambiente., and Universidade dos Açores, eds. Listagem da fauna e flora (Mollusca e Arthropoda) (Bryophyta, Pteridophyta e Spermatophyta) terrestres dos Açores =: A list of terrestrial fauna (Mollusca and Arthropoda) and flora (Bryophyta, Pteridophyta and Spermatophyta) from the Azores. Ponta Delgada, S. Miguel, Açores: Direcção Regional do Ambiente, 2005.

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17

Hrubec, Jiri. Water pollution: Drinking water and drinking water treatment. Berlin: Springer, 1995.

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18

Croucher, Peter J. P. The status of terrestrial and freshwater invertebrate population monitoring in Britain and Ireland: A survey. English Nature, 1992.

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19

Trimmer, Barry. Soft-bodied terrestrial invertebrates and robots. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199674923.003.0041.

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Studies of animal locomotion and its control have generally focused on species with articulated, stiff skeletons, largely ignoring the contributions of soft tissues. Attempts to create animal-like performance in robots illustrate the limitations of using rigid-body mechanics alone. There is a growing appreciation that soft structures are critical for producing robust and adaptable behaviors in complex environments. Studies of predominantly soft animals could help to accelerate our understanding of the biomechanical role of deformable materials and their control. This chapter focuses on our current understanding of locomotion in terrestrial soft animals. It highlights the critical distinction between purely hydrostatic systems that control movements by pressurization and those that can remain relatively soft and exploit stiff substrates (the environmental skeleton strategy). The final section describes biomimetic devices that have been inspired by both animal strategies to show how such biological solutions might be employed to build controllable, highly deformable mobile machines.
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20

Johnson, Scott N., and T. Hefin Jones. Global Climate Change and Terrestrial Invertebrates. Wiley & Sons, Incorporated, John, 2016.

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21

Johnson, Scott N., and T. Hefin Jones. Global Climate Change and Terrestrial Invertebrates. Wiley & Sons, Limited, John, 2017.

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22

Johnson, Scott N., and T. Hefin Jones. Global Climate Change and Terrestrial Invertebrates. Wiley & Sons, Incorporated, John, 2017.

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23

Johnson, Scott N., and T. Hefin Jones. Global Climate Change and Terrestrial Invertebrates. Wiley & Sons, Limited, John, 2016.

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24

Block, W., and William Block. Annotated Bibliography of Antarctic Invertebrates (Terrestrial & Freshwater). Balogh Scientific Books, 1992.

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25

Stanisic, John, Darryl Potter, and Lorelle Stanisic. Guide to Land Snails of Australia. CSIRO Publishing, 2022. http://dx.doi.org/10.1071/9781486313532.

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Australia's native land snails are an often-overlooked invertebrate group that forms a significant part of terrestrial biodiversity, with an estimated 2500 species present in Australia today. A Guide to Land Snails of Australia is an overview of Australia's native and introduced land snail faunas, offering a greater understanding of their role in the natural environment. The book presents clear diagnostic features of live snails and their shells, and is richly illustrated with a broad range of Australia's native snail, semi-slug and slug species. Comprehensive coverage is also included of the many exotic species introduced to Australia. In a unique bioregional approach, the reader is taken on a trek through some of Australia's spectacular regional landscapes, highlighting their endemic and special snail faunas. This section is supplemented with key localities where species can be found.
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26

Present Distribution of the Onychophora: A Group of Terrestrial Invertebrates. Creative Media Partners, LLC, 2022.

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27

Yen, Alan L., and Mark S. Harvey. Worms to Wasps: An Illustrated Guide to Australia's Terrestrial Invertebrates. Oxford University Press, USA, 1990.

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28

Clark, Austin Hobart. The Present Distribution of the Onychophora: A Group of Terrestrial Invertebrates. Franklin Classics Trade Press, 2018.

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29

The Present Distribution Of The Onychophora: A Group Of Terrestrial Invertebrates. Franklin Classics, 2018.

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30

Sweeney, Jon, and David Langor. Ecological Impacts Of Non-Native Invertebrates And Fungi On Terrestrial Ecosystems. Springer, 2010.

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31

Clark, Austin Hobart. The Present Distribution of the Onychophora: A Group of Terrestrial Invertebrates. Franklin Classics Trade Press, 2018.

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32

The Present Distribution Of The Onychophora: A Group Of Terrestrial Invertebrates. Franklin Classics, 2018.

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33

Tilling, S. M. A Key to the Major Groups of British Terrestrial Invertebrates (Field Studies Council Publications). Backhuys Publishers, 1987.

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34

Bioavailability of Metals in Terrestrial Ecosystems: Importance of Partitioning for Bioavailability to Invertebrates, Microbes, and Plants (Metals and the Environmental Series). S E T a C Foundation for, 2002.

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35

Chudzicka, Elzbieta. Monitoring and role of terrestrial invertebrates in bioindicatory evaluation of environment condition and changes: Diversity of reactions of insect communities ... pressure (Memorabilia zoologica). Muzeum i Instytut Zoologii PAN, 1998.

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36

ABDULLAH, MOHD HARUN, ISMAIL ALI, ZULHERRY ISNAIN, and COLLIN G. JOSEPH, eds. Mantanani Island. UMS Press, 2019. http://dx.doi.org/10.51200/mantananiislandumspress2019-978-967-2166-42-9.

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This book comprises of 13 chapters, documenting the scientific expedition of the Mantanani Island. This expedition was conducted by thirty scientists and researchers from Universiti Malaysia Sabah under the fellowship of the Small Islands Research Center (SIRC). The expedition was carried out from the 8th to the 10th of April 2016, yielded new knowledge and updated previous data on the socio-cultural aspects of the inhabitants, island geology, terrestrial and marine flora and fauna, economy and ecotourism. The layout of this book was designed to present the socio-cultural aspect of the inhabitants on the island in two preliminary chapters, followed by island geology; land use; coastline changes; diversity of trees; seaweed; invertebrates; snails; groundwater as well as economic and potential ecotourism prospects of the island in its final chapter. UMS, through its implementation arm, SIRC, is committed to ensure the success of preservation and conservation of the island’s resources for future generations. Therefore, this book aims to serve as a focal point for future scientific expedition to this island. As the environment changes around us due to anthropogenic activities, it is only prudent that we document these changes in order to better understand and mitigate future disasters.
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37

Universities Federation for Animal Welfare Staff. The Ufaw Handbook on the Care & Management of Lab Animals, Volume 1: Terrestrial Vertebrates, Volume 2: Amphibious and Aquatic Vertebrates and Advanced Invertebrates (2-Volume Set). Blackwell Publishing Limited, 1999.

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38

Vairappan, Charles S. Ecological Chemicals as Ecosystem Function Mediaters and Potential Lead Pharmaceuticals. UMS Press, 2021. http://dx.doi.org/10.51200/ecologicalchemicalsumspress2021-978-967-2962-94-6.

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Relationship between functioning ecosystem services and human wellbeing has been established as a bridge connecting nature and society. It has also become central pillar of sustainability science and dictates the paradigms of sustainable development. But, conceptual frameworks that systematically integrates the important roles played by natural ecological chemicals by establishing empirical links between the nature and ecology not only varies, but lacks clear support. The value of ecological chemicals as ecosystem derived natural products warrants explicit acknowledgement, only then trade-offs between services and prioritization of policy can be realised. In the last 20 years, important roles played by the ecological chemicals in Bornean terrestrial and marine ecosystems were investigated and reported. Terrestrial plants produce Volatile Organic Chemicals (VOCs) and structurally interesting secondary metabolites that facilitate their ecological processes that are aimed to establish communication such as defence, attraction, deterrent and territorial marking. Some of the most commonly utilized herbs and plants of traditional medicine importance showed very interesting chemical constituents, that justify their traditional utilization for human wellbeing. The role of VOCs that originated from animal diet and emitted through decomposition of faeces, was traced back to their important role as attractants of insects, particularly dung beetles that facilitates the remineralization of faeces and returns C and N to soil as to replenish global C and N-sink. Marine flora and fauna are perhaps the most vivid producers of structurally interesting secondary metabolites with more than one ecological functions. Halogenated secondary metabolites produced by red algae Laurencia are unique in their structural design and exhibited multiple biological potentials. Similarly, soft corals in the Sulu-Sulawesi Coral Triangle produced a huge diversity of terpenoids and functions as feeding deterrents of these soft bodied invertebrates. Ecological chemicals obtained from the Bornean biodiversity also exhibited a wide array of medically important biological activities such as anti-microbial, anti-inflammation, anti-anticancer and serves an important array of lead pharmaceuticals. Some of these compounds are very potent and have been patented as lead-pharmaceutical candidates from Bornean natural products. Hence, ecological chemicals are important natural products that regulate ecological processes that ensures ecological balance in tropical ecosystems. Humans who are the custodians of natural ecosystem, stand to benefit directly and indirectly when we practice sustainable utilization and regulation of our natural resources.
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