The Impact of Frond Crowding on Frond Bleaching in the Clonal Intertidal Alga Mazzaella Cornucopiae (rhodophyta, Gigartinaceae) from British Columbia, Canada. Scrosati, R. & DeWreede, R. E. Journal of Phycology, 34(2):228–232, April, 1998.
The Impact of Frond Crowding on Frond Bleaching in the Clonal Intertidal Alga Mazzaella Cornucopiae (rhodophyta, Gigartinaceae) from British Columbia, Canada [link]Paper  doi  abstract   bibtex   
The importance that frond crowding represents for the survival of fronds of the clonal intertidal alga Mazzaella cornucopiae (Postels et Ruprecht) Hommersand (Rhodophyta, Gigartinaceae) was investigated in Barkley Sound, British Columbia, Canada. Frond density is high for this species, up to 20 fronds·cm−2 in the most crowded stands. Frond crowding imposes a cost in the form of reduced net photosynthetic rates when fronds are fully hydrated as a result of reduced irradiance compared with experimental (not found naturally) low-density stands. However, the interaction between desiccation and irradiance alters this relationship between net photosynthetic rates and frond density. During a typical daytime low tide in spring, irradiance is 10–30 μmol·m−2·s−1 below the canopy of fronds, and frond desiccation (relative to total water content) can reach 43% at the end of the low tide. In contrast to natural stands, fronds from experimentally thinned stands are subjected to irradiances up to 2000 μmol·m−2·s−1 because of the spatial separation among fronds and can desiccate up to 81% at the end of the same low tide. Laboratory experiments showed that negative net photosynthetic rates occur between 40% and 80% desiccation at an irradiance of 515 μmol·m−2·s−1, and the literature suggests that strong bleaching could occur as a result. At 20 μmol·m−2·s−1 of irradiance and desiccation levels up to 40%, simulating understory conditions of natural stands, net photosynthetic rates are never negative. Experimental thinning of stands of M. cornucopiae done during spring effectively resulted in a stronger extent of frond bleaching compared with natural stands. Therefore, the cost of reduced net photosynthetic rates at high frond densities when fronds are fully hydrated is counterbalanced by the protective effects of frond crowding against extensive bleaching, essential for survival at the intertidal zone. Future research will have to demonstrate the possible relationship between the frequency and duration of negative net photosynthetic rates and the extent of frond bleaching.
@article{scrosati_impact_1998,
	title = {The {Impact} of {Frond} {Crowding} on {Frond} {Bleaching} in the {Clonal} {Intertidal} {Alga} {Mazzaella} {Cornucopiae} (rhodophyta, {Gigartinaceae}) from {British} {Columbia}, {Canada}},
	volume = {34},
	issn = {1529-8817},
	url = {http://onlinelibrary.wiley.com/doi/10.1046/j.1529-8817.1998.340228.x/abstract},
	doi = {10.1046/j.1529-8817.1998.340228.x},
	abstract = {The importance that frond crowding represents for the survival of fronds of the clonal intertidal alga Mazzaella cornucopiae (Postels et Ruprecht) Hommersand (Rhodophyta, Gigartinaceae) was investigated in Barkley Sound, British Columbia, Canada. Frond density is high for this species, up to 20 fronds·cm−2 in the most crowded stands. Frond crowding imposes a cost in the form of reduced net photosynthetic rates when fronds are fully hydrated as a result of reduced irradiance compared with experimental (not found naturally) low-density stands. However, the interaction between desiccation and irradiance alters this relationship between net photosynthetic rates and frond density. During a typical daytime low tide in spring, irradiance is 10–30 μmol·m−2·s−1 below the canopy of fronds, and frond desiccation (relative to total water content) can reach 43\% at the end of the low tide. In contrast to natural stands, fronds from experimentally thinned stands are subjected to irradiances up to 2000 μmol·m−2·s−1 because of the spatial separation among fronds and can desiccate up to 81\% at the end of the same low tide. Laboratory experiments showed that negative net photosynthetic rates occur between 40\% and 80\% desiccation at an irradiance of 515 μmol·m−2·s−1, and the literature suggests that strong bleaching could occur as a result. At 20 μmol·m−2·s−1 of irradiance and desiccation levels up to 40\%, simulating understory conditions of natural stands, net photosynthetic rates are never negative. Experimental thinning of stands of M. cornucopiae done during spring effectively resulted in a stronger extent of frond bleaching compared with natural stands. Therefore, the cost of reduced net photosynthetic rates at high frond densities when fronds are fully hydrated is counterbalanced by the protective effects of frond crowding against extensive bleaching, essential for survival at the intertidal zone. Future research will have to demonstrate the possible relationship between the frequency and duration of negative net photosynthetic rates and the extent of frond bleaching.},
	language = {en},
	number = {2},
	urldate = {2015-08-12},
	journal = {Journal of Phycology},
	author = {Scrosati, Ricardo and DeWreede, Robert E.},
	month = apr,
	year = {1998},
	keywords = {Gigartinaceae, Mazzaella cornucopiae, Rhodophyta},
	pages = {228--232},
}
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