Dartmouth Electron Microscope Facility Date: Wed 26-Oct-2011 Time: 14:54
01 Acanthus anther_2-1.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Acanthaceae
Ruellia makoyana

Scanning electron microscope image of Acanthus anther with pollen.
02 Acanthus anther_2-3.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Acanthaceae
Ruellia makoyana

Scanning electron microscope image of Acanthus anther surface.
03 Acanthus anther_2-2.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Acanthaceae
Ruellia makoyana

Scanning electron microscope image of Acanthus anther surface.
04 Acanthus anther_1-2.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Acanthaceae
Ruellia makoyana

Scanning electron microscope image of Acanthus anther with pollen.
05 Acanthus anther_1-1.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Acanthaceae
Ruellia makoyana

Scanning electron microscope image of Acanthus anther with pollen.

06 Acanthus anther_1-3.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Acanthaceae
Ruellia makoyana

Scanning electron microscope image of Acanthus anther with pollen.
07 Jasmine Floridium2.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Oleaceae
Jasminum floridium

Scanning electron microscope image of jasmine leaf surface.
08 Jasmine Floridium3.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard


Lamiales
Oleaceae
Jasminum floridium

Scanning electron microscope image of jasmine leaf surface.
09 Jasmine Floridium4.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Oleaceae
Jasminum floridium

Scanning electron microscope image of jasmine leaf surface.
10 Jasmine Floridium1.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Lamiales
Oleaceae
Jasminum floridium

Scanning electron microscope image of jasmine leaf surface, showing some glandular tricomes.
11 Halimium cistaceae1.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Malvales
Cistaceae
Halimium
"Rock rose"

Scanning electron microscope image of the "rock rose" lower leaf surface.
12 Heliotropium2-1 Sept04.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard


Boraginaceae
Heliotropium arborescens

Scanning electron microscope image of a leaf tip from a heliotrope plant.
13 Heliotropium2-3 Sept04.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard.

Boraginaceae
Heliotropium arborescens

Scanning electron microscope image of a heliotrope lower leaf surface in the area of a vein.
14 Heliotropium2-2 Sept04.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Boraginaceae
Heliotropium arborescens

Scanning electron microscope image of a leaf tip from a heliotrope plant.
15 Heliotrope4.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard


Boraginaceae
Heliotropium arborescens

Scanning electron microscope image of a heliotrope leaf suface showing some tricomes.
16_SoyB_Rhyz-P4929-Oct19-06-4.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Scanning electron microscope image of a cross section though a soybean(Glycine max.Essex) root nodule. The bacteria, Bradyrhyzobium japonicum, infects the roots and establishes a nitrogen fixing symbiosis.
For more information, see the articles:
Benson HP, Boncompagni E, Guerinot ML (2005) "An iron uptake operon required for proper nodule development in the Bradyrhizobium japonicum-soybean symbiosis" Mol Plant Microbe Interact. 2005 Sep;18(9):950-9.
Roth, E. and G. Stacey (1989) "Bacterium release into host cells of nitrogen-fixing soybean nodules"  J.C.B. Vol. 49 pp.13-23 1989
17_SoyB_Rhyz_1-sectored-3.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Scanning electron microscope image of a cross section though a soybean(Glycine max.Essex) root nodule. The bacteria, Bradyrhyzobium japonicum, infects the roots and establishes a nitrogen fixing symbiosis.
For more information, see the articles:
Benson HP, Boncompagni E, Guerinot ML (2005) "An iron uptake operon required for proper nodule development in the Bradyrhizobium japonicum-soybean symbiosis" Mol Plant Microbe Interact. 2005 Sep;18(9):950-9.
Roth, E. and G. Stacey (1989) "Bacterium release into host cells of nitrogen-fixing soybean nodules"  J.C.B. Vol. 49 pp.13-23 1989
18_SoyB_Rhyz_P4929-Oct19-06-3.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Scanning electron microscope image of a cross section though a soybean(Glycine max.Essex) root nodule. The bacteria, Bradyrhyzobium japonicum, infects the roots and establishes a nitrogen fixing symbiosis.
For more information, see the articles:
Benson HP, Boncompagni E, Guerinot ML (2005) "An iron uptake operon required for proper nodule development in the Bradyrhizobium japonicum-soybean symbiosis" Mol Plant Microbe Interact. 2005 Sep;18(9):950-9.
Roth, E. and G. Stacey (1989) "Bacterium release into host cells of nitrogen-fixing soybean nodules"  J.C.B. Vol. 49 pp.13-23 1989
19_SoyB_Rhyz-ABminus-Oct19-06-4.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Scanning electron microscope image of a cross section though a soybean(Glycine max.Essex) root nodule. The bacteria, Bradyrhyzobium japonicum, infects the roots and establishes a nitrogen fixing symbiosis.
For more information, see the articles:
Benson HP, Boncompagni E, Guerinot ML (2005) "An iron uptake operon required for proper nodule development in the Bradyrhizobium japonicum-soybean symbiosis" Mol Plant Microbe Interact. 2005 Sep;18(9):950-9.
Roth, E. and G. Stacey (1989) "Bacterium release into host cells of nitrogen-fixing soybean nodules"  J.C.B. Vol. 49 pp.13-23 1989
20_SoyB_Rhyz-ABminus-Oct19-06-8.jpg Instrument: FEI XL-30 FEG ESEM
Microscopist: Louisa Howard

Scanning electron microscope image of a cross section though a soybean(Glycine max.Essex) root nodule. The bacteria, Bradyrhyzobium japonicum, infects the roots and establishes a nitrogen fixing symbiosis.
For more information, see the articles:
Benson HP, Boncompagni E, Guerinot ML (2005) "An iron uptake operon required for proper nodule development in the Bradyrhizobium japonicum-soybean symbiosis" Mol Plant Microbe Interact. 2005 Sep;18(9):950-9.
Roth, E. and G. Stacey (1989) "Bacterium release into host cells of nitrogen-fixing soybean nodules"  J.C.B. Vol. 49 pp.13-23 1989

Dartmouth Electron Microscope Facility