Gracilaria ferox J. Agardh was grown continuously in large, outdoor tanks under a pulse-fed nutrient regime for four years. Productivity ranged from 21.4 to 59.2 g d. wt m−2 d−1 with a mean of 39.7 g d. wt m−2 d−1 over the entire study period. Because the cultures were maintained under non-nutrient limiting conditions, productivity was regulated primarily by seasonal changes in light and temperature, which accounted for 75% of the variability of growth in algal yields. Salinity ranged from 31.0 to 36.5h and had insignificant effects on growth within this range. The original vegetative strain was maintained over the entire study without the need for additional supplementation from field-collected stock. Because of the pulse-fed nutrient supply, epiphytic growth on the target species was negligible (< 3% total biomass) throughout the study. The yields attained in this study rank among the highest reported for any intensively managed photosynthetic crop and demonstrate the feasibility of growing red macroalgae like Gracilaria at a sustained high yield in a large-scale, land-based culture system.
Member of
Contributors
Publisher
Kluwer Academic Publishers
Date Issued
1999
Note
Language
Type
Genre
Extent
6 p.
Subject (Topical)
Identifier
2782530
Additional Information
Gracilaria ferox J. Agardh was grown continuously in large, outdoor tanks under a pulse-fed nutrient regime for four years. Productivity ranged from 21.4 to 59.2 g d. wt m−2 d−1 with a mean of 39.7 g d. wt m−2 d−1 over the entire study period. Because the cultures were maintained under non-nutrient limiting conditions, productivity was regulated primarily by seasonal changes in light and temperature, which accounted for 75% of the variability of growth in algal yields. Salinity ranged from 31.0 to 36.5h and had insignificant effects on growth within this range. The original vegetative strain was maintained over the entire study without the need for additional supplementation from field-collected stock. Because of the pulse-fed nutrient supply, epiphytic growth on the target species was negligible (< 3% total biomass) throughout the study. The yields attained in this study rank among the highest reported for any intensively managed photosynthetic crop and demonstrate the feasibility of growing red macroalgae like Gracilaria at a sustained high yield in a large-scale, land-based culture system.
This manuscript is a version of an article with the final publication found online at http://www.springerlink.com and may be cited as: Capo, Thomas R., Juan C. Jaramillo, Albert E. Boyd, Brian E. Lapointe and Joseph E. Serafy (1999) Sustained high yields of Gracilaria (Rhodophyta) grown in intensive large‐scale culture, Journal of Applied Phycology 11:143–147 DOI: 10.1023/A:1008077722769
Florida Atlantic University. Harbor Branch Oceanographic Institute contribution #1356.
Date Backup
1999
Date Text
1999
DOI
10.1023/A:1008077722769
Date Issued (EDTF)
1999
Extension
FAU
FAU
admin_unit="FAU01", ingest_id="ing7717", creator="creator:SPATEL", creation_date="2010-10-06 13:19:15", modified_by="super:FAUDIG", modification_date="2014-02-10 10:38:55"
IID
FADT2782530
Issuance
single unit
Person Preferred Name
Capo, Thomas R.
creator
Physical Description
6 p.
Title Plain
Sustained high yields of Gracilaria (Rhodophyta) grown in intensive large-scale culture
Origin Information
Kluwer Academic Publishers
1999
single unit
Title
Sustained high yields of Gracilaria (Rhodophyta) grown in intensive large-scale culture
Other Title Info
Sustained high yields of Gracilaria (Rhodophyta) grown in intensive large-scale culture