Difference between revisions of "Microscopic observation archives"

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[[File:Global-biomass-distribution_taxa-environments_2018.jpg|thumb|Thumbnailed image|Diagrams sourced from <i>The biomass distribution on Earth</i>, Yinon M. Bar-On, Rob Phillips, Ron Milo.]]
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By considering the biomass<ref>See the article <i>The biomass distribution on Earth</i>, Yinon M. Bar-On, Rob Phillips, Ron Milo. Proceedings of the National Academy of Sciences Jun 2018, 115 (25) 6506-6511; DOI: 10.1073/pnas.1711842115. source: https://www.pnas.org/content/115/25/6506</ref> and lifespan superiority of some microscopic beings in comparison to us human beings, we can look outside of our mammals’ bubble for a moment. Thus, we reach the bubble of decomposers, beings who make life on this planet possible, out of our sight. Without them, our world is rotten forever, since they recycle everything that was, once, alive. As well as pollinators allow plants to reproduce, decomposers transform organic matter in mineral food for plants, the basic trophic level of most ecosystems.
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They are everywhere, and we domesticated some of them to produce our own food, from cheese to bread and wine. However, as apex predators, we exist only because they sustain themselves since millions of years.
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<b>Characteristics of the microscope used for this exploration:</b>
 
[[File:BresserBioDiscover.jpg|thumb|Thumbnailed image|Microscope used for our researches.]]
 
[[File:BresserBioDiscover.jpg|thumb|Thumbnailed image|Microscope used for our researches.]]
Introduction to the reason of these observations.
 
 
<b>MICROSCOPE SPECIFICATIONS</b>
 
 
* <b>Type</b>: Biological-/ Stereo-type microscope
 
* <b>Type</b>: Biological-/ Stereo-type microscope
 
* <b>Model</b>: BRESSER BioDiscover
 
* <b>Model</b>: BRESSER BioDiscover
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|}
 
|}
  
==November 2020 | Blue Ardenne collect ==
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==November 2020 | Blue Ardenne collect==
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[[File:Nov2020_Blue-Ardenne_hike-map.jpg|thumb|Thumbnailed image|[[The Soft Protest Digest:About|The Soft Protest Digest]] followed this path to explore a glimpse of the Blue Ardenne.]]
 
{| class="wikitable"
 
{| class="wikitable"
 
|-
 
|-
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| Hike in the Blue Ardenne || 16th of November 2020 || January 2021 || Fungi<ref>Identified when possible with the help of internet ressources (Wikipedia and [https://mushroomobserver.org/ The Mushroom Observer]).</ref> and small animals crawling in samples.
 
| Hike in the Blue Ardenne || 16th of November 2020 || January 2021 || Fungi<ref>Identified when possible with the help of internet ressources (Wikipedia and [https://mushroomobserver.org/ The Mushroom Observer]).</ref> and small animals crawling in samples.
 
|}
 
|}
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<hr>
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===Observations made while hiking===
 
<gallery mode="traditional">
 
<gallery mode="traditional">
 
File:|thumb|Thumbnailed image|Map of the visited area.|
 
File:|thumb|Thumbnailed image|Map of the visited area.|
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File:Hypoxylaceae_unindentified.jpg|
 
File:Hypoxylaceae_unindentified.jpg|
 
</gallery>
 
</gallery>
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{| class="wikitable"
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|Amanita muscaria || Clavulinopsis aurantiocinnabarina || Fomes fomentarius old || Fomes fomentarius young || Polyporaceae corda || Meruliaceae || Hypoxylaceae
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|}
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<hr>
 
===Fungi (mycelium organ) grown on mushroom===
 
===Fungi (mycelium organ) grown on mushroom===
 
[[File:Hypoxylacae_on_mushroom_sample.jpg|thumb|Thumbnailed image|Macroscopic view of the observed sample.]]
 
[[File:Hypoxylacae_on_mushroom_sample.jpg|thumb|Thumbnailed image|Macroscopic view of the observed sample.]]
 
 
<gallery mode="traditional">
 
<gallery mode="traditional">
 
File:Hypoxylacae_conidium.jpg|
 
File:Hypoxylacae_conidium.jpg|
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File:Fungi-on-beetle_unidentified.jpg|
 
File:Fungi-on-beetle_unidentified.jpg|
 
</gallery>
 
</gallery>
 
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{| class="wikitable"
{|
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|Hypoxylacae conidium || Hypoxylacae and Penicillium conidiums || Tyrophagus putrescentiae || Tenebrionidae family || Beetle wing || Fungi on beetle
|-
 
|Hypoxylacae conidium || Hypoxylacae and Penicillium conidiums. || Tyrophagus putrescentiae || Tenebrionidae family || Beetle wing || Fungi on beetle
 
 
|}
 
|}
 
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<hr>
 
===Lichen <ref>composite organism made of algae/cyanobacteria living among filaments of fungi.</ref>===
 
===Lichen <ref>composite organism made of algae/cyanobacteria living among filaments of fungi.</ref>===
[[File:|thumb|Thumbnailed image|Macroscopic view of the observed sample.]]
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[[File:Hypoxylacae_and_Evernia-genus_sample.jpg|thumb|Thumbnailed image|Macroscopic view of the observed sample.]]
Gallery legend:
 
{{columns-list|colwidth=20em|
 
* Unindentified yellow Hypoxylaceae mycelium growing on a mushroom.
 
*
 
*
 
*
 
*
 
}}
 
 
<gallery mode="traditional">
 
<gallery mode="traditional">
File:|
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File:Evernia-genus_unidentified-1.jpg|
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File:Evernia-genus_unidentified-2.jpg|
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File:Mushroom-gills_unidentified.jpg|
 
</gallery>
 
</gallery>
== Notes ==
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{| class="wikitable"
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|Evernia genus lichen || Evernia genus lichen || Mushroom alveolar gills
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|}
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==Notes==

Revision as of 12:20, 2 February 2021

Diagrams sourced from The biomass distribution on Earth, Yinon M. Bar-On, Rob Phillips, Ron Milo.

By considering the biomass[1] and lifespan superiority of some microscopic beings in comparison to us human beings, we can look outside of our mammals’ bubble for a moment. Thus, we reach the bubble of decomposers, beings who make life on this planet possible, out of our sight. Without them, our world is rotten forever, since they recycle everything that was, once, alive. As well as pollinators allow plants to reproduce, decomposers transform organic matter in mineral food for plants, the basic trophic level of most ecosystems.

They are everywhere, and we domesticated some of them to produce our own food, from cheese to bread and wine. However, as apex predators, we exist only because they sustain themselves since millions of years.

Characteristics of the microscope used for this exploration:

Microscope used for our researches.
  • Type: Biological-/ Stereo-type microscope
  • Model: BRESSER BioDiscover
  • Year of production: 2007
  • Magnification table:
Eypiece Objective Magnification with Barlow lens
5x 4x 20x 40x
5x 10x 50x 100x
5x 40x 200x 400x
16x 4x 64x 128x
16x 10x 160x 320x
16x 40x 640x 1280x

November 2020 | Blue Ardenne collect

The Soft Protest Digest followed this path to explore a glimpse of the Blue Ardenne.
Context of collect Date of collect Date of observation Items observed
Hike in the Blue Ardenne 16th of November 2020 January 2021 Fungi[2] and small animals crawling in samples.

Observations made while hiking

Amanita muscaria Clavulinopsis aurantiocinnabarina Fomes fomentarius old Fomes fomentarius young Polyporaceae corda Meruliaceae Hypoxylaceae

Fungi (mycelium organ) grown on mushroom

Macroscopic view of the observed sample.
Hypoxylacae conidium Hypoxylacae and Penicillium conidiums Tyrophagus putrescentiae Tenebrionidae family Beetle wing Fungi on beetle

Lichen [3]

Macroscopic view of the observed sample.
Evernia genus lichen Evernia genus lichen Mushroom alveolar gills

Notes

  1. See the article The biomass distribution on Earth, Yinon M. Bar-On, Rob Phillips, Ron Milo. Proceedings of the National Academy of Sciences Jun 2018, 115 (25) 6506-6511; DOI: 10.1073/pnas.1711842115. source: https://www.pnas.org/content/115/25/6506
  2. Identified when possible with the help of internet ressources (Wikipedia and The Mushroom Observer).
  3. composite organism made of algae/cyanobacteria living among filaments of fungi.