Burning and 2, 4, 5-T Application on Mortality and Carbohydrate Reserves in Saw-Palmetto

Journal of Range Management Pub Date : 2006-06-19 DOI:10.2307/3897970

R. Kalmbacher, K. Boote, F. Martin

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Both burning and 2,4,5T resulted in lower rhizome percent dry matter indicating that treatment stress caused metabolism of carbohydrate which was replaced by water. After 1 year there was higher mortality on palmetto receiving 2,4,5-T in June, but after 2 years there was no difference in mortality between June (48%) and October sprayed (39%) plants. Burning was not found to have a significant effect on mortality of sprayed plants. Burning and 2,4,5-T decreased palmetto cover, and burned plants treated with 2,4,5-T in June had less cover than burned plants treated in October with 2,4,5-T. Burning followed by 2,4,5-T application in June increased grass cover from 29.4% at the beginning of the study to 67.5% at the end. Saw-palmetto (Serenou repens (Bartr. Small)) is one of the most abundant shrubs on the sandy flatwoods from southern South Carolina to southern Mississippi and throughout all of Florida. The primary method of reproduction is by sprouting from partially buried stems or rhizomes which are capable of elongation. However, palmettos flower in late April and produce some fruit in September or October. In Florida palmettos are relatively dormant in the winter and produce 80% of their annual growth during the rainy May to October period (Hilmon 1968). Carbohydrate reserves of saw palmetto are principally starch which is stored in the rhizomes (Hough 1968). These reserves follow seasonal cycles which are influenced by periods of dormancy, frond growth, and flowering. In rhizomes of unburned plants grown in Georgia, starch was highest in winter (37%) and lowest in summer (27%). Florida cattlemen burn range every 3 to 4 years after winter grazing in order to remove old forage and litter, but palmettos regain 80% of their crown coverage the first year after burning (Hilmon 1968). Burning significantly lowered plant reserves, and three repeated summer burnings after a winter burn lowered starch to 12% (Hough 1968). Interest in reducing palmetto cover has increased with demands for forage production. McCaleb et al. (1960) tested 25 chemicals Authors are associate agronomist, Ona Agricultural Research Center. Ona, Florida 33865; and associate plant physiologist and associate statistician, University of Florida, Gainesville 326 I I. This paper is Florida Agriculture Experiment Station Paper No. 3042. Manuscript received April 30, 1981, JOURNAL OF RANGE MANAGEMENT 36(l), January 1983 and reported 2,4,5-T to be among the best for killing saw palmetto. Recent preliminary experimentation (unpublished) conducted at the Ona Agricultural Research Center (ARC) supports 2,4,5-T (2,4,5-trichloro-phenoxyacetic acid) as being the best of 10 compounds. McCaleb et al. (1961) applied herbicides to unburned palmettos in September and October and reported better mortality (75%) with 4.48 kg acid equivalent/ha (AE/ha). Burton and Hughes (1961) evaluated mortality at 20 months after the application of 3 rates of 2,4,5-T and 2 carriers applied at 3 dates to burned and unburned palmettos. They reported that main effects due to burning and rates were not significant, and date of application was significant only on burned palmettos where the best treatment (burn on March 7 and spray August 26 with 2,4,5-T and water) resulted in 76% mortality. Altobellis and Hough (1968) experimented with 7 combinations of burning and spraying of 2 rates of 2,4,5-T. Best control (61%) was obtained with 6.16 kg/ha AE applied in July 1963, burning 7 months later, respraying in July 1964 followed by reburning in July 1965. The success of this treatment was evaluated with reference to the carbohydrate reserve work of Hough (1968), although there was no report of starch analyses in this study. Because burned palmettos have a weaker energy status than unburned plants (Hough 1968) burning may predispose plants to greater mortality (Burton and Hughes 1961, Altobellis and Hough 1968) when sprayed with 2,4,5-T, which is effective in killing palmettos (McCaleb et al. 1960, McCaleb 1961, Grelen 1960, Burton and Hughes 1961, Altobellis and Hough 1968). However, time of application after burn still remains on a trial and error basis. Hough (1968) suggested that based on this carbohydrate reserve work, October application of herbicide would probably result in the best kill of winter burned palmettos. However, since carbohydrates in unburned palmettos are at their lowest level in late June and July (Hough 1968) this would be an appropriate time for herbicide application which would likely result in maximum control of unburned palmettos. The objective of this study was to measure the total available carbohydrate and relate this to mortality of winter burned and unburned palmettos which were sprayed with 2,4,5-T in June and October. Materials and Methods Work was conducted at the University of Florida’s Ona ARC (27’26’N, 8 1’55’W) in south-central Florida. Averageannual rainfall is about 140 cm, 75% of which falls from May to October. Average temperatures from May to October are maximum/minimum 31.6/ 17.8”C while the remaining months average 25.311 I .6” C. Soil on the experimental site was a Eau Gallie fine sand (Arenic haplaquod), which supported a uniform stand of saw-palmettos that had not been burned in the past 10 years... The treatments were: ( 1) burn (March 1, 1977) and no burn; and (2) time of 2,4,5-T (propylene glycol, butyl ether esters) application at 8.9 kg AE/ha applied on June 30,1977, or October 20,1977, in","PeriodicalId":16918,"journal":{"name":"Journal of Range Management","volume":"15 1","pages":"9"},"PeriodicalIF":0.0000,"publicationDate":"2006-06-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"13","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Range Management","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2307/3897970","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 13

Abstract

On the flatwoods of the southeastern United States control of saw-palmetto (Serenoa repetrs (Bartr.) Small) is an important step in the improvement of native pastures. This study, conducted at the Ona Agricultural Research Center in south Florida, measured fluctuations in total available carbohydrates (TAC) in rhizomes of burned and unburned saw-palmetto which received a June or October application of 8.9 kg/ha (acid equiv.) of 2,4,5-T. Palmetto kill, change in palmetto cover, and grass canopy cover were evaluated. Burning reduced TAC concentration in rhizomes from 48.8% in March to 14.3% in July as compared to a drop from 47.2% to 37.4% for unburned plants. Applying 2,4,5-T caused a further significant decline in TAC concentration. Both burning and 2,4,5T resulted in lower rhizome percent dry matter indicating that treatment stress caused metabolism of carbohydrate which was replaced by water. After 1 year there was higher mortality on palmetto receiving 2,4,5-T in June, but after 2 years there was no difference in mortality between June (48%) and October sprayed (39%) plants. Burning was not found to have a significant effect on mortality of sprayed plants. Burning and 2,4,5-T decreased palmetto cover, and burned plants treated with 2,4,5-T in June had less cover than burned plants treated in October with 2,4,5-T. Burning followed by 2,4,5-T application in June increased grass cover from 29.4% at the beginning of the study to 67.5% at the end. Saw-palmetto (Serenou repens (Bartr. Small)) is one of the most abundant shrubs on the sandy flatwoods from southern South Carolina to southern Mississippi and throughout all of Florida. The primary method of reproduction is by sprouting from partially buried stems or rhizomes which are capable of elongation. However, palmettos flower in late April and produce some fruit in September or October. In Florida palmettos are relatively dormant in the winter and produce 80% of their annual growth during the rainy May to October period (Hilmon 1968). Carbohydrate reserves of saw palmetto are principally starch which is stored in the rhizomes (Hough 1968). These reserves follow seasonal cycles which are influenced by periods of dormancy, frond growth, and flowering. In rhizomes of unburned plants grown in Georgia, starch was highest in winter (37%) and lowest in summer (27%). Florida cattlemen burn range every 3 to 4 years after winter grazing in order to remove old forage and litter, but palmettos regain 80% of their crown coverage the first year after burning (Hilmon 1968). Burning significantly lowered plant reserves, and three repeated summer burnings after a winter burn lowered starch to 12% (Hough 1968). Interest in reducing palmetto cover has increased with demands for forage production. McCaleb et al. (1960) tested 25 chemicals Authors are associate agronomist, Ona Agricultural Research Center. Ona, Florida 33865; and associate plant physiologist and associate statistician, University of Florida, Gainesville 326 I I. This paper is Florida Agriculture Experiment Station Paper No. 3042. Manuscript received April 30, 1981, JOURNAL OF RANGE MANAGEMENT 36(l), January 1983 and reported 2,4,5-T to be among the best for killing saw palmetto. Recent preliminary experimentation (unpublished) conducted at the Ona Agricultural Research Center (ARC) supports 2,4,5-T (2,4,5-trichloro-phenoxyacetic acid) as being the best of 10 compounds. McCaleb et al. (1961) applied herbicides to unburned palmettos in September and October and reported better mortality (75%) with 4.48 kg acid equivalent/ha (AE/ha). Burton and Hughes (1961) evaluated mortality at 20 months after the application of 3 rates of 2,4,5-T and 2 carriers applied at 3 dates to burned and unburned palmettos. They reported that main effects due to burning and rates were not significant, and date of application was significant only on burned palmettos where the best treatment (burn on March 7 and spray August 26 with 2,4,5-T and water) resulted in 76% mortality. Altobellis and Hough (1968) experimented with 7 combinations of burning and spraying of 2 rates of 2,4,5-T. Best control (61%) was obtained with 6.16 kg/ha AE applied in July 1963, burning 7 months later, respraying in July 1964 followed by reburning in July 1965. The success of this treatment was evaluated with reference to the carbohydrate reserve work of Hough (1968), although there was no report of starch analyses in this study. Because burned palmettos have a weaker energy status than unburned plants (Hough 1968) burning may predispose plants to greater mortality (Burton and Hughes 1961, Altobellis and Hough 1968) when sprayed with 2,4,5-T, which is effective in killing palmettos (McCaleb et al. 1960, McCaleb 1961, Grelen 1960, Burton and Hughes 1961, Altobellis and Hough 1968). However, time of application after burn still remains on a trial and error basis. Hough (1968) suggested that based on this carbohydrate reserve work, October application of herbicide would probably result in the best kill of winter burned palmettos. However, since carbohydrates in unburned palmettos are at their lowest level in late June and July (Hough 1968) this would be an appropriate time for herbicide application which would likely result in maximum control of unburned palmettos. The objective of this study was to measure the total available carbohydrate and relate this to mortality of winter burned and unburned palmettos which were sprayed with 2,4,5-T in June and October. Materials and Methods Work was conducted at the University of Florida’s Ona ARC (27’26’N, 8 1’55’W) in south-central Florida. Averageannual rainfall is about 140 cm, 75% of which falls from May to October. Average temperatures from May to October are maximum/minimum 31.6/ 17.8”C while the remaining months average 25.311 I .6” C. Soil on the experimental site was a Eau Gallie fine sand (Arenic haplaquod), which supported a uniform stand of saw-palmettos that had not been burned in the past 10 years... The treatments were: ( 1) burn (March 1, 1977) and no burn; and (2) time of 2,4,5-T (propylene glycol, butyl ether esters) application at 8.9 kg AE/ha applied on June 30,1977, or October 20,1977, in

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燃烧和2,4,5 - t在锯棕榈死亡率和碳水化合物储量中的应用

在美国东南部平坦的树林里锯棕榈的控制(Serenoa repetrs (Bartr.)小)是改善原生牧场的重要一步。这项研究是在南佛罗里达的奥纳农业研究中心进行的，测量了6月或10月施用8.9公斤/公顷(酸当量)2,4,5- t的燃烧和未燃烧锯棕榈根茎中总有效碳水化合物(TAC)的波动。评价了棕榈死亡、棕榈盖度变化和草冠层盖度变化。燃烧使根状茎中TAC浓度从3月的48.8%下降到7月的14.3%，而未燃烧的根状茎中TAC浓度从47.2%下降到37.4%。施用2,4,5- t引起TAC浓度进一步显著下降。燃烧和2、4、5T处理均导致根茎干物质含量降低，说明处理胁迫导致碳水化合物代谢被水取代。2年后6月喷2、4、5-T的棕榈死亡率较高，但2年后6月(48%)与10月(39%)的死亡率无显著差异。未发现燃烧对喷施植株的死亡率有显著影响。2、4、5-T和2、4、5-T使棕榈盖度降低，6月2、4、5-T处理的烧伤植株盖度低于10月2、4、5-T处理的烧伤植株。6月份焚烧后再施用2,4,5- t，使草盖度从研究开始时的29.4%增加到研究结束时的67.5%。锯棕榈(Serenou repens)。从南卡罗莱纳南部到密西西比南部和整个佛罗里达的沙质平原森林中最丰富的灌木之一。繁殖的主要方法是从部分埋藏的茎或根茎中萌发，这些茎或根茎能够伸长。然而，棕榈在4月下旬开花，在9月或10月结出一些果实。在佛罗里达，棕榈在冬季相对休眠，在多雨的5月至10月期间产生80%的年生长量(Hilmon 1968)。锯棕榈的碳水化合物储备主要是淀粉，储存在根茎中(Hough 1968)。这些储备遵循季节周期，受休眠，叶片生长和开花时期的影响。在格鲁吉亚种植的未燃烧植物的根茎中，淀粉含量在冬季最高(37%)，在夏季最低(27%)。佛罗里达的牧场主在冬季放牧后每3到4年就会烧掉一次，以清除旧的草料和垃圾，但棕榈在燃烧后的第一年就会恢复80%的树冠覆盖率(Hilmon 1968)。燃烧显著降低了植物储量，冬季燃烧后三次重复的夏季燃烧将淀粉降低到12% (Hough 1968)。减少棕榈覆盖的兴趣随着饲料生产需求的增加而增加。McCaleb等人(1960)测试了25种化学物质。作者是奥纳农业研究中心的副农学家。奥纳，佛罗里达州33865;和佛罗里达大学植物生理学家和统计学家助理，盖恩斯维尔326 I.本文是佛罗里达农业实验站论文编号3042。论文发表于1981年4月30日，JOURNAL OF RANGE MANAGEMENT 36(l)， 1983年1月，报道2,4,5- t是杀死锯棕榈的最佳药剂之一。最近在奥纳农业研究中心(ARC)进行的初步实验(未发表)支持2,4,5-t(2,4,5-三氯-苯氧乙酸)是10种化合物中最好的。McCaleb等人(1961)在9月和10月对未燃烧的棕榈施用除草剂，报告死亡率较低(75%)，为4.48千克酸当量/公顷(AE/公顷)。Burton和Hughes(1961)对燃烧和未燃烧的棕榈分别在3个日期施用3种2、4、5-T和2载体后20个月的死亡率进行了评估。他们报告说，由于烧伤和发病率造成的主要影响并不显著，施用日期仅对烧伤的棕榈有显著影响，其中最佳处理(3月7日烧伤，8月26日用2,4,5- t和水喷洒)导致76%的死亡率。Altobellis和Hough(1968)用2,4,5- t两种速率的7种燃烧和喷洒组合进行了实验。1963年7月施用6.16 kg/ hm2 AE, 7个月后燃烧，1964年7月再喷，1965年7月再燃烧，防治效果最佳(61%)。尽管本研究中没有淀粉分析的报道，但参考Hough(1968)的碳水化合物储备工作对该处理的成功进行了评估。由于燃烧后的棕榈比未燃烧的棕榈具有更弱的能量状态(Hough 1968)，当喷洒2,4,5- t (McCaleb et al. 1960, McCaleb 1961, green 1960, Burton and Hughes 1961, Altobellis and Hough 1968)时，燃烧可能使植物死亡率更高(Burton and Hughes 1961, Altobellis and Hough 1968)。2,4,5- t可有效杀死棕榈(McCaleb et al. 1960, McCaleb 1961, green 1960, Burton and Hughes 1961, Altobellis and Hough 1968)。然而，烧伤后的应用时间仍然停留在试验和错误的基础上。 Hough(1968)认为，基于这种碳水化合物储备工作，10月施用除草剂可能对冬烧棕榈的杀灭效果最好。然而，由于未燃烧棕榈中的碳水化合物在6月下旬和7月处于最低水平(Hough 1968)，这将是施用除草剂的适当时间，这可能会最大限度地控制未燃烧棕榈。本研究的目的是测量总有效碳水化合物，并将其与6月和10月喷施2,4,5- t的冬季燃烧和未燃烧棕榈的死亡率联系起来。材料和方法研究在佛罗里达州中南部的佛罗里达大学Ona ARC (27 ' 26'N, 8 ' 55'W)进行。年平均降雨量约140厘米，其中75%集中在5月至10月。5月至10月的平均气温最高/最低为31.6/ 17.8”C，其余月份的平均气温为25.311 I .6”C。实验场地的土壤是一种Eau Gallie细沙(Arenic haplquod)，它支撑着一大片均匀的锯棕榈，这些锯棕榈在过去的10年里没有被烧毁。治疗方法:(1)烧伤(1977年3月1日)和不烧伤;(2) 1977年6月30日或1977年10月20日，2,4,5- t(丙二醇，丁基醚酯)以8.9 kg AE/ha施用的时间

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Journal of Range Management

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