Mycorrhizal status of Fagara coco (Rutaceae): does it form ectomycorrhizas with Phlebopus bruchii(Boletaceae)?

NOUHRA E, DOMÍNGUEZ L, URCELAY C, & BECERRA A. 2008

SYMBIOSIS

Lugar: ISRAEL; Año: 2008 vol. 46 p. 113 - 120

0334-5114

Abstract Fagara coco (Gill.) Engl, is a native tree found in the mountains of Central Argentina. It generally grows together with the edible bolete Phlebopus bruchii (Speg.) Heineman & Rammeloo. This association is considered to be an ectomycorrhizal symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. edible bolete Phlebopus bruchii (Speg.) Heineman & Rammeloo. This association is considered to be an ectomycorrhizal symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. (Gill.) Engl, is a native tree found in the mountains of Central Argentina. It generally grows together with the edible bolete Phlebopus bruchii (Speg.) Heineman & Rammeloo. This association is considered to be an ectomycorrhizal symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. Phlebopus bruchii (Speg.) Heineman & Rammeloo. This association is considered to be an ectomycorrhizal symbiosis. To test the hypothesis of their co-occurrence as mutualistic partners, we studied the mycorrhizal colonization in roots from either natural stands or inoculated with spores of P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. P. bruchii in both, the greenhouse and in pure culture experiments. However, no ectomycorrhizal (ECM) colonization was detected. Instead, roots collected from the field were colonized by arbuscular mycorrhizal (AM) fungi, showing a dual infection of Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. Arum- and Paris-type morphologies. The percentage of AM mycorrhizal colonization varied according to the season, with the highest occurring in the autumn. Spores of ten Glomalean taxa were isolated from the F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales. F. coco rhizosphere. Based on our results and previous data, we suggest that the behavior of the genus Phlebopus is an exception to the mycorrhizal habit found in most Boletales.Phlebopus is an exception to the mycorrhizal habit found in most Boletales.