«Previous Article|Table of Contents|Next Article»

¡¶±±·½Ô°ÒÕ¡·[ISSN:1001-0009/CN:23-1247/S]

Issue:

2017Äê14

Page:

13-18

Research Field:

Publishing date:

Info

Title:

Toxicity and Control Effects of Lime Nitrogen Against ª«Bradysia odoriphaga

Author(s):

LIU Fang1; ZHAO Xi2; JI Guixia1; ZHU Guodong1; LUO Yin1; XUE Ming1

(1.Shandong Key Laboratory for Biology of Vegetable Pests and Diseases/College of Plant Protection£¬Shandong Agricultural University,Tai¡äan£¬Shandong 271018£»2.Jinan Academy of Agricultural Sciences£¬Jinan£¬Shandong 250316)

Keywords:

lime nitrogen; ª«Bradysia odoriphagaª«; toxicity; control effect; safety evaluation

PACS:

-

DOI:

10.11937/bfyy.20165167

Abstract:

In order to look for the safe and efficient protection on ª«Bradysia odoriphaga ª«Yang and Zhang£¬ª«B.odoriphagaª« was usedª« ª«as test insect and by using root pouring treatment£¬the toxicity and control effects of lime nitrogen to ª«B.odoriphaga ª«in different stages and the safety on Chinese chives were measured.The results showed that the toxicity of lime nitrogen was high on larvae of ª«B.odoriphagaª«£¬especially for the low instar larvae.The toxicity to eggs and pupae was weakened than larvae.The indoor experiment proved that lime nitrogen had obvious repellent of oviposition in adult stage.Pot and field experiments showed that the control effect was obvious to ª«B.odoriphagaª« at adult period£¬the larvae period had similar effect.The security test results showed that lime nitrogen was safe for leek within 1.5-6.0 kg per 667 m2£¬and could effectively increase the yield of leek.

References:

 

[1]ÀîÏÍÏÍ£¬ÂíÏþµ¤£¬Ñ¦Ã÷£¬µÈ.àç³æ°·µÈÒ©¼Á¶Ô¾Â²Ë³ÙÑÛÞ¦ÎõÄÖ¶¾Ð§Ó¦[J].Ö²Îï±£»¤Ñ§±¨£¬2014£¬41(2)£º225-229.ª¤

[2]ÂíÏþµ¤£¬Ñ¦Ã÷£¬Àϼ£¬µÈ.ÎåÖÖÀ¥³æÉú³¤µ÷½Ú¼Á¶Ô¾Â²Ë³ÙÑÛÞ¦ÎõÄÖ¶¾×÷ÓÃ[J].Ö²Îï±£»¤Ñ§±¨£¬2015£¬42(2)£º271-277.ª¤

[3]Âí¾ü࣬ÍõÎÀƽ.ʯ»ÒµªÔÚÅ©ÒµÉϵÄÓ¦ÓÃ[J].ÖйúÅ©¼¼Íƹ㣬2003(3)£º43-44.ª¤

[4]Å©Òµ²¿ÍÁµØÀûÓÃ×ܾÖ.ʯ»Òµª[J].Å©Òµ¿ÆѧͨѶ£¬1955(8)£º477-478.ª¤

[5]Öì±þÁ¼£¬Âí¾üΰ£¬Ò¶Ñ©Ö飬µÈ.ʯ»ÒµªµÄÍÁÈÀ¸ÄÁ¼×÷Óü°¶ÔÊ߲˵ÄÊ©ÓÃЧ¹ûÑо¿[J].Õã½­´óѧѧ±¨(Å©ÒµÓëÉúÃü¿Æѧ°æ)£¬2011£¬27(3)£º339-342.ª¤

[6]ÍõÀñ,Ó÷¾°È¨.ʯ»ÒµªÔÚÉèÊ©Ô°ÒÕÖÐÓ¦ÓÃÑо¿½øÕ¹[J].±±·½Ô°ÒÕ£¬2006(6)£º57-59.ª¤

[7]¹ùÓñ»¨£¬¸ßÖÎÎÄ.ʯ»ÒµªÏļ¾¸ßÎÂÃÆÅï¸ÄÁ¼ÍÁÈÀ¼¼Êõ[J].ÐÂÅ©Òµ£¬2016(13)£º32-33.ª¤

[8]ÕŹãÈÙ£¬çÑÖÙ÷£¬Ñ¦Àò£¬µÈ.²»Í¬ÍÁÈÀÌí¼Ó¼Á¼°¸ßÎÂÃÆÅï¶Ô·ÀÖθù½áÏ߳没µÄÓ°Ïì[J].Ö²Îï±£»¤£¬2016£¬42(1)£º249-252.ª¤

[9]DONAL E C.Influence of particle size and application method on the efficacy of calcium cyanamide for control of clubroot of vegetable ª«Brassicasª«[J].Crop Protection,2004(23):297-303.ª¤

[10]BLETSOS F A.Grafting and calcium cyanamide as alternatives to methyl hroinide for greenhouse eggplant production[J].Scientia Horticulturae,2006,107(4):325-331.ª¤

[11]ËïÆôÓñ£¬½­Ï¼.ʯ»ÒµªÈÕ¹âÍÁÈÀÏû¶¾·ÀÖÎÍÁ´«²¡º¦[J].ũҵ֪ʶ£¬2014(11)£º27-28.ª¤

[12]´Þ¹úÇì.ʯ»Òµª·ÀÖÎÍÁ´«²¡º¦»úÀí¼°¶ÔÊß²ËÉú³¤Ó°ÏìÑо¿[D].ÖØÇ죺Î÷ÄÏ´óѧ£¬2006.ª¤

[13]±«¼ÌÓÑ£¬Ö£Ñ࣬ÎâÃô.ʯ»Òµª·ÀÖη¬ÇÑÍÁ´«²¡º¦ÊÔÑéÑо¿[J].Å©Òµ¿Æ¼¼Í¨Ñ¶£¬2014(1)£º135-136.ª¤

[14]ϯÏÈ÷£¬°×È«½­£¬ÕÅÇìƼ£¬µÈ.²»Í¬ÍÁÈÀ´¦Àí¼Á¶ÔÉèÊ©Ê߲˻ƹϸù½áÏß³æ·ÀÖμ¼ÊõÑо¿[J].Ö²Îï±£»¤£¬2013(3)£º186-189.ª¤

[15]Ê·Ã÷Î䣬Ñî½ðÃ÷£¬ÁοªÖ¾£¬µÈ.ʯ»ÒµªÔÚ´óÅï²ÝÝ®ÌïµÄʹÓÃЧ¹û[J].ÉϺ£Ê߲ˣ¬2008(5)£º105.ª¤

[16]¬Ê÷²ý£¬ÍõС²¨£¬Áõ»ÛÇÛ£¬µÈ.ÉèÊ©²ËµØÐÝÏÐÆÚÊ©ÓÃʯ»Òµª·À¿Ø¸ù½áÏß³æ¶ÔÍÁÈÀpH¼°Î¢ÉúÎïÁ¿µÄÓ°Ïì[J].Öйúũѧͨ±¨£¬2011£¬27(22)£º258-262.ª¤

[17]ÁõÁ¼Ã·.ׯ²®²®·ÊÁÏÓ¦ÓÃÊÔÑé[J].ÉϺ£Ê߲ˣ¬2008(4)£º95-96.ª¤

[18]ºúÇì´æ£¬ÐìÔ£Â×£¬ºúµÂ¾ß.»ùʩʯ»Òµª¶ÔÝþ²Ý²Ý¾¥ÐÔ×´µÄÓ°Ïì[J].Õã½­Å©Òµ¿Æѧ£¬2015(2)£º187-188,191.ª¤

Memo

Memo:

-

Common functions

Last Update: 2017-07-25