hermit crab Search Results


coenobita clypeatus  (Carolina Biological)
90
Carolina Biological coenobita clypeatus
Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of <t>Coenobita</t> ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.
Coenobita Clypeatus, supplied by Carolina Biological, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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ecuadorian hermit crab c.  (Compressus Inc)
90
Compressus Inc ecuadorian hermit crab c.
Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of <t>Coenobita</t> ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.
Ecuadorian Hermit Crab C., supplied by Compressus Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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white hermit crab sand (a mixture of calcium carbonate and magnesium carbonate from zoo-med laboratories, inc., of san luis obispo, calif., usa)  (Zoo Med Laboratories)
90
Zoo Med Laboratories white hermit crab sand (a mixture of calcium carbonate and magnesium carbonate from zoo-med laboratories, inc., of san luis obispo, calif., usa)
Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of <t>Coenobita</t> ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.
White Hermit Crab Sand (A Mixture Of Calcium Carbonate And Magnesium Carbonate From Zoo Med Laboratories, Inc., Of San Luis Obispo, Calif., Usa), supplied by Zoo Med Laboratories, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
white hermit crab sand (a mixture of calcium carbonate and magnesium carbonate from zoo-med laboratories, inc., of san luis obispo, calif., usa) - by Bioz Stars, 2026-04
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colonies of h. symbiolongicarpus encrusting gastropod shells occupied by the hermit crab pagurus longicarpus  (Marine Biological Laboratory)
90
Marine Biological Laboratory colonies of h. symbiolongicarpus encrusting gastropod shells occupied by the hermit crab pagurus longicarpus
Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of <t>Coenobita</t> ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.
Colonies Of H. Symbiolongicarpus Encrusting Gastropod Shells Occupied By The Hermit Crab Pagurus Longicarpus, supplied by Marine Biological Laboratory, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/colonies of h. symbiolongicarpus encrusting gastropod shells occupied by the hermit crab pagurus longicarpus/product/Marine Biological Laboratory
Average 90 stars, based on 1 article reviews
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flesh extracted from a freshly smashed terrestrial hermit crab  (Compressus Inc)
90
Compressus Inc flesh extracted from a freshly smashed terrestrial hermit crab
Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of <t>Coenobita</t> ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.
Flesh Extracted From A Freshly Smashed Terrestrial Hermit Crab, supplied by Compressus Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/flesh extracted from a freshly smashed terrestrial hermit crab/product/Compressus Inc
Average 90 stars, based on 1 article reviews
flesh extracted from a freshly smashed terrestrial hermit crab - by Bioz Stars, 2026-04
90/100 stars
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hermit crab p. pubescens  (Barents Group LLC)
90
Barents Group LLC hermit crab p. pubescens
Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of <t>Coenobita</t> ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.
Hermit Crab P. Pubescens, supplied by Barents Group LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
hermit crab p. pubescens - by Bioz Stars, 2026-04
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shells of the dwarf hermit crab with established h. symbiolongicarpus colonies  (Marine Biological Laboratory)
90
Marine Biological Laboratory shells of the dwarf hermit crab with established h. symbiolongicarpus colonies
Polyp types of the colonial cnidarian Hydractinia <t>symbiolongicarpus.</t> A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.
Shells Of The Dwarf Hermit Crab With Established H. Symbiolongicarpus Colonies, supplied by Marine Biological Laboratory, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/shells of the dwarf hermit crab with established h. symbiolongicarpus colonies/product/Marine Biological Laboratory
Average 90 stars, based on 1 article reviews
shells of the dwarf hermit crab with established h. symbiolongicarpus colonies - by Bioz Stars, 2026-04
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european hermit crab  (Brightwell Technologies Inc)
90
Brightwell Technologies Inc european hermit crab
Polyp types of the colonial cnidarian Hydractinia <t>symbiolongicarpus.</t> A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.
European Hermit Crab, supplied by Brightwell Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/european hermit crab/product/Brightwell Technologies Inc
Average 90 stars, based on 1 article reviews
european hermit crab - by Bioz Stars, 2026-04
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hermit crab pagurus pubescens  (Barents Group LLC)
90
Barents Group LLC hermit crab pagurus pubescens
Polyp types of the colonial cnidarian Hydractinia <t>symbiolongicarpus.</t> A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.
Hermit Crab Pagurus Pubescens, supplied by Barents Group LLC, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/hermit crab pagurus pubescens/product/Barents Group LLC
Average 90 stars, based on 1 article reviews
hermit crab pagurus pubescens - by Bioz Stars, 2026-04
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hermit crab paguristes punticeps  (Wulff labs)
90
Wulff labs hermit crab paguristes punticeps
Polyp types of the colonial cnidarian Hydractinia <t>symbiolongicarpus.</t> A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.
Hermit Crab Paguristes Punticeps, supplied by Wulff labs, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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hermit crab paguristes punticeps - by Bioz Stars, 2026-04
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hermit crab shells  (Guilford Pharmaceuticals)
90
Guilford Pharmaceuticals hermit crab shells
Polyp types of the colonial cnidarian Hydractinia <t>symbiolongicarpus.</t> A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.
Hermit Crab Shells, supplied by Guilford Pharmaceuticals, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/hermit crab shells/product/Guilford Pharmaceuticals
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hermit crab shells - by Bioz Stars, 2026-04
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hermit crab shell fights  (Blackwell Verlag)
90
Blackwell Verlag hermit crab shell fights
Polyp types of the colonial cnidarian Hydractinia <t>symbiolongicarpus.</t> A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.
Hermit Crab Shell Fights, supplied by Blackwell Verlag, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of Coenobita ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.

Journal: eLife

Article Title: Mushroom body evolution demonstrates homology and divergence across Pancrustacea

doi: 10.7554/eLife.52411

Figure Lengend Snippet: Golgi impregnations demonstrate corresponding orthogonal arrangements in the two calyces of Pagurus (Ca1, Ca2 in panel A ), which extend as a columnar lobe (clm) ending in tubercular swellings (tu), and in the multistratified hemiellipsoid body of Coenobita ( I ), which lacks a lobe. ( B-D ), ( F-H ) Golgi impregnations of Pagurus calyces show characteristic orthogonal arrangement of intrinsic neuron dendrites ( B,F,G ) originating from parallel arrangements of their initial processes ( C ). These neurons are invested by beaded fibers from the olfactory globular tract (OGT; F ) and provide axon-like elongations that extend to the lobe (D; see also, ). Anti-5HT (orange) and anti-TH (cyan) immunostaining resolves corresponding efferent dendritic trees aligned with orthogonal networks ( E ). These are shown for the multistratified Coenobita hemiellipsoid body (panel I ). ( J–O ) Golgi impregnations of the Coenobita hemiellipsoid body demonstrate orthogonal and rectilinear organization of its intrinsic neurons. Scale bars in A, 50 μm; B-D, 25 μm; E, 50μ; F, 10 μm; G, 25 μm; H,J,K, 50 μm; I, 100 μm; L-O, 25 μm.

Article Snippet: Biological sample , Coenobita clypeatus , Carolina Biological Supply Co. , 142415 , n = 13.

Techniques: Immunostaining

Journal: eLife

Article Title: Mushroom body evolution demonstrates homology and divergence across Pancrustacea

doi: 10.7554/eLife.52411

Figure Lengend Snippet:

Article Snippet: Biological sample , Coenobita clypeatus , Carolina Biological Supply Co. , 142415 , n = 13.

Techniques: Staining, Generated, Purification, Electron Microscopy, Software, Microscopy, Light Microscopy

Polyp types of the colonial cnidarian Hydractinia symbiolongicarpus. A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.

Journal: Toxicon: X

Article Title: Venom system variation and the division of labor in the colonial hydrozoan Hydractinia symbiolongicarpus

doi: 10.1016/j.toxcx.2022.100113

Figure Lengend Snippet: Polyp types of the colonial cnidarian Hydractinia symbiolongicarpus. A) Photos of morphologically and functionally distinct polyp types of Hydractinia. Top panel shows primarily gastrozooids, or feeding polyps, on the surface of a hermit crab shell. Bottom panels show close-ups of female gonozooids, or reproductive polyps, to the left (blue arrow) and dactylozooids, or prey-capture polyps, to the right (red arrow). Note that dactylozooids only appear at the opening of the hermit crab shell . Lines drawings are provided of each polyp type of focus in this study: B) gastrozooid, C) gonozooids, male (left) and female (right), and D) dactylozooid.

Article Snippet: Shells of the dwarf hermit crab ( Pagurus longicarpus Say, 1817) with established H. symbiolongicarpus colonies were purchased from Marine Biological Laboratories (Woods Hole, MA, USA).

Techniques: