Endothall absorption and translocation by curly-leaved and sago pondweed
Curly-leaved pondweed (Potamogeton crispus L.) (CLP) and sago pondweed [Stuckenia pectinata (L.) Borner] (SGP) are perennial, submersed aquatic species in the Potamogetonaceae family that produce perennating structures. CLP is an introduced species that infests water bodies across the United States,...
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| Veröffentlicht in: | Journal of aquatic plant management 2022-01, Vol.60 (1), p.34-38 |
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| description | Curly-leaved pondweed (Potamogeton crispus L.) (CLP) and sago pondweed [Stuckenia pectinata (L.) Borner] (SGP) are perennial, submersed aquatic species in the Potamogetonaceae family that produce perennating structures. CLP is an introduced species that infests water bodies across the United States, while SGP is a native species that becomes problematic in irrigation canals. These plant species are often managed using endothall (7-oxabicyclo[2.2.1]heptane -2,3-dicarxylic acid), but they respond differently to the herbicide even though they belong to the same plant family. The objective of this research was to determine if endothall behaved differently enough in these two species to explain the differential plant response. SGP plants were treated with a high endothall concentration (3 mg [L.sup.-1]) and CLP plants with a high and a low endothall concentration, 3 and 0.75 mg [L.sup.-1], respectively. Endothall absorption and translocation was determined over a 192-h time course. Endothall absorption by CLP and SGP was slow; however, total accumulation was four to seven times higher than the concentration found in the water column. Endothall shoot-to-root translocation was limited in both species. CLP translocated 3.0% [+ or -] 0.23 and 3.6% [+ or -] 0.45 at 3 and 0.75 mg [L.sup.-1] endothall, respectively, while SGP translocated 1.1% [+ or -] 0.02 when exposed to 3 mg [L.sup.-1] endothall. Translocation to the mature tuber or turion that produced the plant was even more limited. The results of this study support the previously research that endothall can be translocated to the roots of aquatic plants; however, there was no evidence to explain differential response between SGP and CLP based on endothall behavior. Key words: herbicide uptake, Potamogeton crispus, radio labeled, Stuckenia pectinate. |
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(CLP) and sago pondweed [Stuckenia pectinata (L.) Borner] (SGP) are perennial, submersed aquatic species in the Potamogetonaceae family that produce perennating structures. CLP is an introduced species that infests water bodies across the United States, while SGP is a native species that becomes problematic in irrigation canals. These plant species are often managed using endothall (7-oxabicyclo[2.2.1]heptane -2,3-dicarxylic acid), but they respond differently to the herbicide even though they belong to the same plant family. The objective of this research was to determine if endothall behaved differently enough in these two species to explain the differential plant response. SGP plants were treated with a high endothall concentration (3 mg [L.sup.-1]) and CLP plants with a high and a low endothall concentration, 3 and 0.75 mg [L.sup.-1], respectively. Endothall absorption and translocation was determined over a 192-h time course. Endothall absorption by CLP and SGP was slow; however, total accumulation was four to seven times higher than the concentration found in the water column. Endothall shoot-to-root translocation was limited in both species. CLP translocated 3.0% [+ or -] 0.23 and 3.6% [+ or -] 0.45 at 3 and 0.75 mg [L.sup.-1] endothall, respectively, while SGP translocated 1.1% [+ or -] 0.02 when exposed to 3 mg [L.sup.-1] endothall. Translocation to the mature tuber or turion that produced the plant was even more limited. The results of this study support the previously research that endothall can be translocated to the roots of aquatic plants; however, there was no evidence to explain differential response between SGP and CLP based on endothall behavior. Key words: herbicide uptake, Potamogeton crispus, radio labeled, Stuckenia pectinate.</description><identifier>ISSN: 0146-6623</identifier><language>eng</language><publisher>Gainesville: Aquatic Plant Management Society</publisher><subject>Absorption ; Aquatic plants ; Canals ; Drinking water ; Flowers & plants ; Freshwater plants ; Heptanes ; Herbicides ; Indigenous species ; Introduced species ; Irrigation canals ; Loam soils ; Native organisms ; Native species ; Plant species ; Plants ; Seeds ; Stuckenia pectinata ; Translocation ; Turions ; Water circulation ; Water column ; Water temperature</subject><ispartof>Journal of aquatic plant management, 2022-01, Vol.60 (1), p.34-38</ispartof><rights>COPYRIGHT 2022 Aquatic Plant Management Society</rights><rights>2022. This work is published under https://creativecommons.org/licenses/by/4.0 (the “License”). 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Endothall absorption by CLP and SGP was slow; however, total accumulation was four to seven times higher than the concentration found in the water column. Endothall shoot-to-root translocation was limited in both species. CLP translocated 3.0% [+ or -] 0.23 and 3.6% [+ or -] 0.45 at 3 and 0.75 mg [L.sup.-1] endothall, respectively, while SGP translocated 1.1% [+ or -] 0.02 when exposed to 3 mg [L.sup.-1] endothall. Translocation to the mature tuber or turion that produced the plant was even more limited. The results of this study support the previously research that endothall can be translocated to the roots of aquatic plants; however, there was no evidence to explain differential response between SGP and CLP based on endothall behavior. 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(CLP) and sago pondweed [Stuckenia pectinata (L.) Borner] (SGP) are perennial, submersed aquatic species in the Potamogetonaceae family that produce perennating structures. CLP is an introduced species that infests water bodies across the United States, while SGP is a native species that becomes problematic in irrigation canals. These plant species are often managed using endothall (7-oxabicyclo[2.2.1]heptane -2,3-dicarxylic acid), but they respond differently to the herbicide even though they belong to the same plant family. The objective of this research was to determine if endothall behaved differently enough in these two species to explain the differential plant response. SGP plants were treated with a high endothall concentration (3 mg [L.sup.-1]) and CLP plants with a high and a low endothall concentration, 3 and 0.75 mg [L.sup.-1], respectively. Endothall absorption and translocation was determined over a 192-h time course. Endothall absorption by CLP and SGP was slow; however, total accumulation was four to seven times higher than the concentration found in the water column. Endothall shoot-to-root translocation was limited in both species. CLP translocated 3.0% [+ or -] 0.23 and 3.6% [+ or -] 0.45 at 3 and 0.75 mg [L.sup.-1] endothall, respectively, while SGP translocated 1.1% [+ or -] 0.02 when exposed to 3 mg [L.sup.-1] endothall. Translocation to the mature tuber or turion that produced the plant was even more limited. The results of this study support the previously research that endothall can be translocated to the roots of aquatic plants; however, there was no evidence to explain differential response between SGP and CLP based on endothall behavior. Key words: herbicide uptake, Potamogeton crispus, radio labeled, Stuckenia pectinate.</abstract><cop>Gainesville</cop><pub>Aquatic Plant Management Society</pub><tpages>5</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | Absorption Aquatic plants Canals Drinking water Flowers & plants Freshwater plants Heptanes Herbicides Indigenous species Introduced species Irrigation canals Loam soils Native organisms Native species Plant species Plants Seeds Stuckenia pectinata Translocation Turions Water circulation Water column Water temperature |
| title | Endothall absorption and translocation by curly-leaved and sago pondweed |
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