[1]陈闯,刘勇*,李国雷,等.底部渗灌和容器规格对栓皮栎容器苗生长和营养元素含量的影响[J].南京林业大学学报(自然科学版),2015,39(03):025.
 Chen Chuang Liu Yong* Li Guolei Sun Qiaoyu Shi Wenhui Xi Wang.Effects of subirrigation and container size on growth and nutrient element content of containerized Quercus variabilis seedlings[J].Journal of Nanjing Forestry University(Natural Science Edition),2015,39(03):025.
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底部渗灌和容器规格对栓皮栎容器苗生长和营养元素含量的影响
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《南京林业大学学报(自然科学版)》[ISSN:1000-2006/CN:32-1161/S]

卷:
39
期数:
2015年03期
页码:
025
栏目:
出版日期:
2015-05-30

文章信息/Info

Title:
Effects of subirrigation and container size on growth and nutrient element content of containerized Quercus variabilis seedlings
作者:
陈闯刘勇*李国雷孙巧玉史文辉奚旺
(北京林业大学省部共建森林培育与保护教育部重点实验室,北京100083)
Author(s):
Chen Chuang1 Liu Yong* Li Guolei Sun Qiaoyu Shi Wenhui Xi Wang
( Key Laboratory for Silviculture and Conservation of Ministry of EducationBeijing Forestry UniversityBeijing 100083)
关键词:
底部渗灌上方喷灌容器规格栓皮栎容器苗
Keywords:
subirrigation overhead irrigation container size Quercus variabiliscontainerized seedling
摘要:
以栓皮栎( Quercus variabilis Blume)容器苗为研究对象,采用两种容器规格(D60容器和D40容器),进行底部渗灌和上方喷灌处理,研究底部渗灌对栓皮栎容器苗生长状况与营养元素含量的影响,以便为底部渗灌技术在苗木培育中的应用提供技术支撑。结果表明:与上方喷灌相比,底部渗灌下的栓皮栎容器苗至少节约63.35%的灌溉水,苗高和地径至少提高约10.00%,生物量提高了18.40%以上,单株养分含量要比上方喷灌显著提高了18.00%以上,养分浓度提高了至少17.00%,容器规格的增加可以提高苗高、地径、生物量和单株的氮、磷、钾含量。底部渗灌不仅是一项节水和降低污染的灌溉技术,而且能培育出比上方喷灌质量更高的苗木。
Abstract:
This experiment was conducted to examine the effects of two kinds of container size(D60 and D40)and two kinds of irrigation methods on growth and nutrient element content of containerized Quercus variabilis Blume seedlings, and provide managers of nurseries?technical爏upport for using subirrigation in their facilities.. Results showed that compared with overhead irrigation, seedlings with sub-irrigation saved at least 63.35% of water, and seedling height and root collar diameter were increased by about 10.00%, dry mass was increased higher than 18.40%; the nutrient contents were improved more than 18.00%; the nutrient concentration were improved by at least 17.00%. Seedlings also showed increasing in height, root collar diameter, dry mass, N, P and K content with increasing container size. Sub-irrigation is not only a water-saving and eco-friendly technology, but also can produce plants with equal or better quality in comparison with overhead irrigation

参考文献/References:

[1] Dumroese R K, Wenny D L and Page Dumroese D S. Nursery waste water: The problem and possible remedies. Natl. Proc[J]. For. Conservation Nursery Assoc. USDA For. Serv. Gen. Tech. Rep, 1995, 365: 89-97.
[2] Juntenen M L, Hammar T and Rikala R. Leaching of nitrogen and phosphorus during production of forest seedlings in containers[J]. Environ Qual, 2002, 31: 1868-1874.
[3] Molitor H D. 1990. The European perspective with emphasis on subirrigation and recirculation of water and nutrients[J]. Acta Horticulturae, 272: 165–174.
[4] McAvoy R J, Brand M H, Corbett E G, Bartok J W and Botacchi J A. Effect of leachate fraction on nitrate loading to the soil profile underlying a greenhouse crop[J]. Environ Hort, 1992, 10: 167–171.
[5] Dumroese R K, Pinto J R, Jacobs D F, Davis A S, Horiuchi B. Subirrigation reduces water use nitrogen loss and moss growth in a container nursery[J]. Native Plants Journal, 2006, 7(3): 253-261.
[6] Coggeshall M V, Van Sambeek J W. Designing and testing a subirrigation system for rooting hardwood cuttings. In: Van Sambeek JW, Dawson JO, Ponder F, Loewenstein EF, Fralish JS, editors. Proceedings of the Thirteenth Central Hardwood Forest Conference. St Paul (MN): USDA Forest Service, North Central Research Station. General Technical Report NC-234. 2003: 415–420.
[7] Ahmed A K, Cresswell G C, Haigh A M. Comparison of sub-irrigation and overhead irrigation of tomato and lettuce seedlings[J]. Journal of Horticultural Science and Biotechnology, 2000, 75: 350-354.
[8]Goodwin P B, Murphy M, Melville P, et al. 2003. Restoration of hard mast species for wildlife in Missouri using precocious flowering oak in the Missouri River floodplain, USA. Agroforestry System, 59( 1) : 3-10.
[9] Davis A S, Jacobs D F, Overton R P, et al. Influence of irrigation method and container type on northern red oak seedling growth and media electrical conductivity [J]. Native Plants Journal, 2008, 9(1): 4-13.
[10] Davis A S, Pinto J R, Jacobs D F. Early field performance of Acacia koa seedlings grown under subirrigation and overhead irrigation [J]. Native Plants Journal, 2011, 12(2): 94-99.
[11] Landis T D, Dumroese R K, Chandler R. Subirrigation trials with native plants [J]. In: Dumroese R K, Landis T D, editors. Forest Nursery Notes, Winter. Portland (OR): USDA, Forest Service, Pacific Northwest Region, State and Private Forestry, Cooperative Programs. R6-CP-TP-08-05. 2006: 14-15.
[12] Davis A S, Aghai M M, Pinto J R, et al. Growth, gas exchange, foliar nitrogen content, and water use of subirrigated and overhead-irrigated Populus tremuloides Michx. seedlings. HortScience, 2011, 46(9):1249-1253.
[13] 毛海颖.栓皮栎蓄水规律及灌溉制度的研究[D].北京林业大学硕士学位论文:北京林业大学, 2010.
[14] 杨自立.栓皮栎播种苗水氮需求规律研究[D].北京林业大学博士学位论文:北京林业大学, 2011.
[15] 李国雷, 祝燕, 蒋乐, 等. 指数施肥对栓皮栎容器苗生长和氮积累的影响[J]. 东北林业大学学报, 2012, 40(11): 6-9.
[16] White J W and Marstalerz J W. Soil moisture as related to container capacity [J]. Amer. Soc. Hort. Sci. 1966, 89: 758-765.
[17] 鲍士旦.土壤农化分析[M].北京:中国农业出版社, 2005.
[18] Pinto J R, Chandler R A, Dumroese R K. Growth, nitrogen use efficiency, and leachate comparison of subirrigated and overhead irrigated pale purple coneflower seedlings[J]. HortScience, 2008, 43(3): 897-901.
[19] Hicklenton, P.R. and K.G. Cairns. Plant water relations and mineral nutrition of containerized nursery plants in relation to irrigation method. Can. J. Plant Sci. 1996, 76:155-160.
[20] Bumgarner M L, Salifu K F, Jacobs D F. Subirrigation of Quercus rubra seedlings: nursery stock quality, media chemistry and early field performance [J]. Hort Science, 2008, 43(7): 2179-2185.
[21] Dumroese R K, Davis A S, Jacobs D F. Nursery response of Acacia koa seedlings to container size, irrigation method, and fertilization rate [J]. Journal of Plant Nutrition, 2011, 34: 877-887.
[22] Dominguez-Lerena S, Sierra N H, Manzano I C, et al. Container characteristics influence Pinus pinea seedling development in the nursery and field [J]. For. Ecol. Manage. 2006, 221:63-67.
[23] Douglas A C. Growth, nutrient content, and growth medium electrical conductivity of poinsettia irrigated by subirrigation or from overhead [J]. Journal of Plant Nutrition, 2011, 24(3): 523-533.
[24] Jacobs D F, Timmer V R. Fertilizer induced changes in rhizosphere electrical conductivity: relation to forest tree seedling root system growth and function. New Forests. 2005, 30:147-166.
[25] Coggeshall M V and Van Sambeek J W. Development of a subirrigation system with potential for hardwood tree propagation [J]. Proc.Intl. Plant Prop. Soc. 2001, 51:443–448.

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更新日期/Last Update: 2015-05-06