{"title":"南地南部奶牛放牧饲用甜菜和羽衣甘蓝作物的氮淋失","authors":"L. Smith, R. Monaghan","doi":"10.33584/JNZG.2020.82.444","DOIUrl":null,"url":null,"abstract":"Fodder beet has become increasingly common as both a winter forage and as a supplement at the shoulders of the dairy season in southern New Zealand. One advantage over the more traditional kale crop option is that fodder beet results in less urinary nitrogen (N) excretion in dairy animals, potentially reducing N leaching. Two trials were undertaken to measure nitrogen leaching losses under both autumn-grazed or autumn-lifted fodder beet crops. Leaching losses were also measured from winter-grazed fodder beet and winter-grazed kale treatments. Results from Trial 1 show that leaching losses from autumn-lifted or autumn-grazed fodder beet treatments were large (108–131 kg N ha-1) relative to losses measured in the winter-grazed fodder beet treatment (82 kg N ha-1). This indicates that autumn-grazed fodder beet crops have a greater potential for N leaching than winter-grazed fodder beet. The practice of lifting and removing fodder beet during autumn appeared to reduce N leaching somewhat, but losses were still relatively large, perhaps due to carryover of N from the previous season as a result of the dry summer conditions that preceded the drainage season in in the first year of Trial 1. The amount of N leached from the winter-grazed fodder beet treatment from Trial 1 at 82 kg N ha-1 was 50% less than the 176 kg N ha-1 observed for the kale crop. Results from Trial 2 using larger plots showed a similar trend, with winter-grazed fodder beet leaching 42% less N than winter-grazed kale (41 vs 70 kg N ha-1; P<0.001), despite not all the urine N being collected by the end of the drainage season. These losses are relatively large compared to the annual N leaching losses measured from pasture paddocks on the same farm, which ranged from 13–23 kg N ha-1. Considerations of grazing and/or harvest timing (autumn vs winter) as well as crop type appear to be important factors that determine N leaching losses from Southland dairy systems.","PeriodicalId":36573,"journal":{"name":"Journal of New Zealand Grasslands","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2020-09-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"4","resultStr":"{\"title\":\"Nitrogen leaching losses from fodder beet and kale crops grazed by dairy cows in southern SouthlandNitrogen leaching losses from fodder beet and kale crops grazed by dairy cows in southern Southland\",\"authors\":\"L. Smith, R. Monaghan\",\"doi\":\"10.33584/JNZG.2020.82.444\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Fodder beet has become increasingly common as both a winter forage and as a supplement at the shoulders of the dairy season in southern New Zealand. One advantage over the more traditional kale crop option is that fodder beet results in less urinary nitrogen (N) excretion in dairy animals, potentially reducing N leaching. Two trials were undertaken to measure nitrogen leaching losses under both autumn-grazed or autumn-lifted fodder beet crops. Leaching losses were also measured from winter-grazed fodder beet and winter-grazed kale treatments. Results from Trial 1 show that leaching losses from autumn-lifted or autumn-grazed fodder beet treatments were large (108–131 kg N ha-1) relative to losses measured in the winter-grazed fodder beet treatment (82 kg N ha-1). This indicates that autumn-grazed fodder beet crops have a greater potential for N leaching than winter-grazed fodder beet. The practice of lifting and removing fodder beet during autumn appeared to reduce N leaching somewhat, but losses were still relatively large, perhaps due to carryover of N from the previous season as a result of the dry summer conditions that preceded the drainage season in in the first year of Trial 1. The amount of N leached from the winter-grazed fodder beet treatment from Trial 1 at 82 kg N ha-1 was 50% less than the 176 kg N ha-1 observed for the kale crop. Results from Trial 2 using larger plots showed a similar trend, with winter-grazed fodder beet leaching 42% less N than winter-grazed kale (41 vs 70 kg N ha-1; P<0.001), despite not all the urine N being collected by the end of the drainage season. These losses are relatively large compared to the annual N leaching losses measured from pasture paddocks on the same farm, which ranged from 13–23 kg N ha-1. Considerations of grazing and/or harvest timing (autumn vs winter) as well as crop type appear to be important factors that determine N leaching losses from Southland dairy systems.\",\"PeriodicalId\":36573,\"journal\":{\"name\":\"Journal of New Zealand Grasslands\",\"volume\":\"1 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2020-09-29\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"4\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Journal of New Zealand Grasslands\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.33584/JNZG.2020.82.444\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q3\",\"JCRName\":\"Environmental Science\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of New Zealand Grasslands","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.33584/JNZG.2020.82.444","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"Environmental Science","Score":null,"Total":0}
引用次数: 4
摘要
在新西兰南部,饲料甜菜作为冬季饲料和乳制品季节的补充,变得越来越普遍。与更传统的羽衣甘蓝作物相比,一个优势是饲料甜菜能减少乳制品动物的尿氮排泄,有可能减少氮的浸出。进行了两项试验,以测量秋季放牧或秋季饲养的饲料甜菜作物的氮浸出损失。还测量了冬食饲料甜菜和冬食羽衣甘蓝处理的浸出损失。试验1的结果表明,与冬季放牧饲料甜菜处理(82 kg N ha-1)的损失相比,秋季改良或秋季放牧饲料甜菜的浸出损失较大(108–131 kg N ha-2)。这表明,秋食饲料甜菜作物比冬食饲料甜菜具有更大的氮浸出潜力。秋季提升和移除饲料甜菜的做法似乎在一定程度上减少了氮的浸出,但损失仍然相对较大,可能是由于试验1第一年排水季节之前的夏季干燥条件导致上一个季节的氮残留。试验1的冬食草料甜菜处理在82 kg N ha-1下浸出的N量比羽衣甘蓝作物观察到的176 kg N ha-少50%。使用更大地块的试验2的结果显示出类似的趋势,冬食饲料甜菜比冬食羽衣甘蓝少浸出42%的氮(41 vs 70 kg N ha-1;P<0.001),尽管在排水季节结束时并没有收集到所有的尿液氮。与同一农场牧场围场测得的年氮浸出损失相比,这些损失相对较大,其范围为13-23 kg N ha-1。放牧和/或收获时间(秋季与冬季)以及作物类型的考虑似乎是决定南部乳制品系统氮浸出损失的重要因素。
Nitrogen leaching losses from fodder beet and kale crops grazed by dairy cows in southern SouthlandNitrogen leaching losses from fodder beet and kale crops grazed by dairy cows in southern Southland
Fodder beet has become increasingly common as both a winter forage and as a supplement at the shoulders of the dairy season in southern New Zealand. One advantage over the more traditional kale crop option is that fodder beet results in less urinary nitrogen (N) excretion in dairy animals, potentially reducing N leaching. Two trials were undertaken to measure nitrogen leaching losses under both autumn-grazed or autumn-lifted fodder beet crops. Leaching losses were also measured from winter-grazed fodder beet and winter-grazed kale treatments. Results from Trial 1 show that leaching losses from autumn-lifted or autumn-grazed fodder beet treatments were large (108–131 kg N ha-1) relative to losses measured in the winter-grazed fodder beet treatment (82 kg N ha-1). This indicates that autumn-grazed fodder beet crops have a greater potential for N leaching than winter-grazed fodder beet. The practice of lifting and removing fodder beet during autumn appeared to reduce N leaching somewhat, but losses were still relatively large, perhaps due to carryover of N from the previous season as a result of the dry summer conditions that preceded the drainage season in in the first year of Trial 1. The amount of N leached from the winter-grazed fodder beet treatment from Trial 1 at 82 kg N ha-1 was 50% less than the 176 kg N ha-1 observed for the kale crop. Results from Trial 2 using larger plots showed a similar trend, with winter-grazed fodder beet leaching 42% less N than winter-grazed kale (41 vs 70 kg N ha-1; P<0.001), despite not all the urine N being collected by the end of the drainage season. These losses are relatively large compared to the annual N leaching losses measured from pasture paddocks on the same farm, which ranged from 13–23 kg N ha-1. Considerations of grazing and/or harvest timing (autumn vs winter) as well as crop type appear to be important factors that determine N leaching losses from Southland dairy systems.
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