Xinjiang Agricultural Sciences ›› 2022, Vol. 59 ›› Issue (6): 1458-1465.DOI: 10.6048/j.issn.1001-4330.2022.06.017
• Plant Protection·Microbes • Previous Articles Next Articles
YUAN Jie1,2(), DING Xinhua2(), JIA Zun2, FU Kaiyun2, Tursun Ahemat2, HE Jiang2, GUO Wenchao2()
Received:
2021-09-07
Online:
2022-06-20
Published:
2022-07-07
Correspondence author:
DING Xinhua, GUO Wenchao
Supported by:
袁洁1,2(), 丁新华2(), 贾尊尊2, 付开赟2, 吐尔逊·阿合买提2, 郭文超2()
通讯作者:
丁新华,郭文超
作者简介:
袁洁(1996-),女,新疆乌鲁木齐人,硕士研究生,研究方向为农业昆虫与害虫防治,(E-mail) yj960805@126.com
基金资助:
CLC Number:
YUAN Jie, DING Xinhua, JIA Zun, FU Kaiyun, Tursun Ahemat, HE Jiang, GUO Wenchao. Effects of Different Nitrogen Contents on Population Proliferation of Asian Corn Borer[J]. Xinjiang Agricultural Sciences, 2022, 59(6): 1458-1465.
袁洁, 丁新华, 贾尊尊, 付开赟, 吐尔逊·阿合买提, 郭文超. 氮素含量对亚洲玉米螟个体发育及种群增殖的影响[J]. 新疆农业科学, 2022, 59(6): 1458-1465.
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成分 Component | N含量 N confent | ||||
---|---|---|---|---|---|
N1(3.94%) | N2(7.33%) | N3(10.69%) (CK) | N4(18.84%) | N5(30.31%) | |
玉米糁Maize granule( g/kg) | 430.00 | 340.00 | 200.00 | 110.00 | 0.00 |
大豆糁Soybean granule( g/kg) | 0.00 | 50.00 | 150.00 | 150.00 | 100.00 |
酵母粉Yeast powder( g/kg) | 0.00 | 40.00 | 80.00 | 160.00 | 330.00 |
对羟基甲酸酯Nipagin ester( g/kg) | 10.00 | 10.00 | 10.00 | 10.00 | 10.00 |
山梨酸Sorbic acid( g/kg) | 5.00 | 5.00 | 5.00 | 5.00 | 5.00 |
葡萄糖Glucose( g/kg) | 50.00 | 50.00 | 50.00 | 50.00 | 50.00 |
VC( g/kg) | 5.00 | 5.00 | 5.00 | 5.00 | 5.00 |
琼脂Agar-agar( g/kg) | 20.00 | 20.00 | 20.00 | 20.00 | 20.00 |
Table 1 Five artificial feed formulas for Ostrinia furnacalis(Guenee) with different nitrogen content
成分 Component | N含量 N confent | ||||
---|---|---|---|---|---|
N1(3.94%) | N2(7.33%) | N3(10.69%) (CK) | N4(18.84%) | N5(30.31%) | |
玉米糁Maize granule( g/kg) | 430.00 | 340.00 | 200.00 | 110.00 | 0.00 |
大豆糁Soybean granule( g/kg) | 0.00 | 50.00 | 150.00 | 150.00 | 100.00 |
酵母粉Yeast powder( g/kg) | 0.00 | 40.00 | 80.00 | 160.00 | 330.00 |
对羟基甲酸酯Nipagin ester( g/kg) | 10.00 | 10.00 | 10.00 | 10.00 | 10.00 |
山梨酸Sorbic acid( g/kg) | 5.00 | 5.00 | 5.00 | 5.00 | 5.00 |
葡萄糖Glucose( g/kg) | 50.00 | 50.00 | 50.00 | 50.00 | 50.00 |
VC( g/kg) | 5.00 | 5.00 | 5.00 | 5.00 | 5.00 |
琼脂Agar-agar( g/kg) | 20.00 | 20.00 | 20.00 | 20.00 | 20.00 |
温度 Temper ature (℃) | 发育阶段 Developmental stage | 发育历期 Developmental period(d) | ||||
---|---|---|---|---|---|---|
N含量3.94% (N1) | N含量7.33% (N2) | N含量10.69%(CK) (N3) | N含量18.84% (N4) | N含量30.31% (N5) | ||
20 | 1龄 | (3.89±0.15)b | (3.53±0.14)a | (3.65±0.14)b | (4.5±0.11)a | (4.7±0.23)a |
2龄 | (5.67±0.14)a | (4.65±0.15)b | (4.22±0.13)c | (2.84±0.12)d | (4.92±0.16)b | |
3龄 | (16.69±1.35)a | (9.22±0.54)b | (7.93±0.61 | (5.64±0.30)d | (7.17±0.55 | |
4龄 | (15.81±1.34)a | (7.47±0.34)b | (5.87±0.33)c | (4.45±0.18)d | (7.77±0.39)b | |
5龄 | (18.91±2.84)a | (7.47±0.45)b | (6.53±0.40)b | (6.25±1.01)b | (5.61±0.39)b | |
蛹 | — | (23.06±1.69)a | (21.66±1.53)a | (13.84±0.75)a | (20.97±1.79)a | |
成虫寿命 | — | (10.69±0.40)b | (12.39±0.77)a | (12.11±0.45)ab | (12.05±0.38)ab | |
产卵前期(d) | — | (3.29±0.47)c | (7.58±0.28)a | (3.19±0.46)c | (5.00±0.58)b | |
产卵期(d) | — | (8.14±1.61)a | (5.6±0.79)a | (6.18±1.17)a | (6.18±0.69)a | |
25 | 1龄 | (4.94±1.21)a | (4.97±1.11)a | (4.49±1.13)b | (3.38±1.23)d | (3.87±1.61)c |
2龄 | (8.58±0.61)a | (8.66±0.44)a | (7.00±1.13)b | (5.53±0.77)b | (7.07±0.08)b | |
3龄 | (14.58±0.17)a | (4.61±0.14)b | (3.96±0.36)c | (3.19±1.02)c | (3.53±1.13)c | |
4龄 | (10.11±0.74)a | (3.89±1.43)c | (5.04±1.44)b | (3.09±1.11)d | (4.01±1.29)c | |
5龄 | (10.72±0.49)a | (4.69±1.98)b | (4.54±0.13)b | (4.26±1.83)b | (3.45±1.13)c | |
蛹 | (23.83±0.58)a | (14.96±0.53)b | (9.66±0.81)c | (7.74±0.66)c | (9.41±0.95)c | |
成虫寿命 | (5.50±0.71)a | (8.21±0.08)a | (7.32±0.35)a | (7.95±0.39)a | (7.24±1.65)a | |
产卵前期(d) | — | (7.57±1.39)a | (6±0.72)a | (7.57±1.26)a | (8±1.76)a | |
产卵期(d) | — | (5.38±1.07)a | (4.93±0.89)a | (7.39±0.99)a | (5±0.86)a | |
30 | 1龄 | (4.94±0.09)b | (4.97±0.06)c | (4.49±0.22)a | (4±0.01)a | (3±0.01)d |
2龄 | (8.58±0.28)b | (8.66±0.29)b | (7±0.35)a | (2.42±0.08)c | (2.14±0.3)c | |
3龄 | (14.58±0.16)a | (4.61±0.14)b | (3.96±0.11)c | (3.63±0.15)d | (2.59±0.05)d | |
4龄 | (10.11±0.34)a | (3.89±0.2)b | (5.04±0.14)b | (4±0.14)b | (3.84±0.07)b | |
5龄 | (10.72±1.49)a | (4.69±0.45)b | (4.54±0.17)b | (2.24±0.13)c | (2.35±0.05)c | |
蛹 | — | (14.96±2.7)a | (9.66±1.34)a | (3.42±0.13)b | (3.53±0.1)b | |
成虫寿命 | — | (8.21±0.87)a | (7.32±0.64)b | (5.79±0.07)a | (5.75±0.07)a | |
产卵前期(d) | — | (5.5±0.5)b | (2.63±0.38)a | (2.71±0.24)b | (2.4±0.16)b | |
产卵期(d) | — | (1.5±0.5)b | (1.88±0.48)b | (6.5±0.61)a | (4.2±0.83)ab |
Table 2 Effects of artificial diets with different nitrogen content levels on the growth and development duration of the Asian corn borer,Ostrinia furnacalis(Guenee)
温度 Temper ature (℃) | 发育阶段 Developmental stage | 发育历期 Developmental period(d) | ||||
---|---|---|---|---|---|---|
N含量3.94% (N1) | N含量7.33% (N2) | N含量10.69%(CK) (N3) | N含量18.84% (N4) | N含量30.31% (N5) | ||
20 | 1龄 | (3.89±0.15)b | (3.53±0.14)a | (3.65±0.14)b | (4.5±0.11)a | (4.7±0.23)a |
2龄 | (5.67±0.14)a | (4.65±0.15)b | (4.22±0.13)c | (2.84±0.12)d | (4.92±0.16)b | |
3龄 | (16.69±1.35)a | (9.22±0.54)b | (7.93±0.61 | (5.64±0.30)d | (7.17±0.55 | |
4龄 | (15.81±1.34)a | (7.47±0.34)b | (5.87±0.33)c | (4.45±0.18)d | (7.77±0.39)b | |
5龄 | (18.91±2.84)a | (7.47±0.45)b | (6.53±0.40)b | (6.25±1.01)b | (5.61±0.39)b | |
蛹 | — | (23.06±1.69)a | (21.66±1.53)a | (13.84±0.75)a | (20.97±1.79)a | |
成虫寿命 | — | (10.69±0.40)b | (12.39±0.77)a | (12.11±0.45)ab | (12.05±0.38)ab | |
产卵前期(d) | — | (3.29±0.47)c | (7.58±0.28)a | (3.19±0.46)c | (5.00±0.58)b | |
产卵期(d) | — | (8.14±1.61)a | (5.6±0.79)a | (6.18±1.17)a | (6.18±0.69)a | |
25 | 1龄 | (4.94±1.21)a | (4.97±1.11)a | (4.49±1.13)b | (3.38±1.23)d | (3.87±1.61)c |
2龄 | (8.58±0.61)a | (8.66±0.44)a | (7.00±1.13)b | (5.53±0.77)b | (7.07±0.08)b | |
3龄 | (14.58±0.17)a | (4.61±0.14)b | (3.96±0.36)c | (3.19±1.02)c | (3.53±1.13)c | |
4龄 | (10.11±0.74)a | (3.89±1.43)c | (5.04±1.44)b | (3.09±1.11)d | (4.01±1.29)c | |
5龄 | (10.72±0.49)a | (4.69±1.98)b | (4.54±0.13)b | (4.26±1.83)b | (3.45±1.13)c | |
蛹 | (23.83±0.58)a | (14.96±0.53)b | (9.66±0.81)c | (7.74±0.66)c | (9.41±0.95)c | |
成虫寿命 | (5.50±0.71)a | (8.21±0.08)a | (7.32±0.35)a | (7.95±0.39)a | (7.24±1.65)a | |
产卵前期(d) | — | (7.57±1.39)a | (6±0.72)a | (7.57±1.26)a | (8±1.76)a | |
产卵期(d) | — | (5.38±1.07)a | (4.93±0.89)a | (7.39±0.99)a | (5±0.86)a | |
30 | 1龄 | (4.94±0.09)b | (4.97±0.06)c | (4.49±0.22)a | (4±0.01)a | (3±0.01)d |
2龄 | (8.58±0.28)b | (8.66±0.29)b | (7±0.35)a | (2.42±0.08)c | (2.14±0.3)c | |
3龄 | (14.58±0.16)a | (4.61±0.14)b | (3.96±0.11)c | (3.63±0.15)d | (2.59±0.05)d | |
4龄 | (10.11±0.34)a | (3.89±0.2)b | (5.04±0.14)b | (4±0.14)b | (3.84±0.07)b | |
5龄 | (10.72±1.49)a | (4.69±0.45)b | (4.54±0.17)b | (2.24±0.13)c | (2.35±0.05)c | |
蛹 | — | (14.96±2.7)a | (9.66±1.34)a | (3.42±0.13)b | (3.53±0.1)b | |
成虫寿命 | — | (8.21±0.87)a | (7.32±0.64)b | (5.79±0.07)a | (5.75±0.07)a | |
产卵前期(d) | — | (5.5±0.5)b | (2.63±0.38)a | (2.71±0.24)b | (2.4±0.16)b | |
产卵期(d) | — | (1.5±0.5)b | (1.88±0.48)b | (6.5±0.61)a | (4.2±0.83)ab |
温度 Temperature (℃) | N素含量 Nitrogen content | 3龄 3rd instar(mg) | 4龄 4th instar(mg) | 5龄 5th instar(mg) | 蛹 Pupal(mg) |
---|---|---|---|---|---|
20 | N1(3.94%) | (1.94±0.19)c | (7.81±3.91)b | (8.82±0.54)b | — |
N2(7.33%) | (3.76±0.29)b | (14.12±1.38)a | (45.17±4.33)a | (67.68±6.47)ab | |
N3(10.69%)(CK) | (4.81±0.52)a | (17.96±1.86)a | (44.55±3.91)a | (81.61±5.96)a | |
N4(18.84%) | (3.79±0.31)b | (16.59±1.69)a | (44.98±3.88)a | (79.74±4.56)ab | |
N5(30.31%) | (3.05±0.29)bc | (15.79±1.86)a | (43.75±5.31)a | (57.21±4.82)b | |
25 | N1(3.94%) | (3.82±0.33)b | (13.36±1.46)d | (15.23±1.38)b | (16.8±0.31)c |
N2(7.33%) | (4.015±1.21)a | (14.5±2.63)bc | (45.46±4.45)a | (50.52±2.71)b | |
N3(10.69%)(CK) | (4.72±0.29)b | (18.74±1.72)cd | (71.09±9.5)a | (70.12±4.13)ab | |
N4(18.84%) | (10.28±1.32)a | (39.78±7.79)a | (71.69±14.86)a | (80.09±6.28)a | |
N5(30.31%) | (7.75±0.81)a | (32.99±3.45)ab | (51.56±4.25)a | (77.47±3.97)a | |
30 | N1(3.94%) | (4.99±0.41)c | (7.82±0.82)d | (13.46±1.74)d | — |
N2(7.33%) | (5.94±0.32)b | (17.64±1.93)c | (30.68±2.38)c | — | |
N3(10.69%)(CK) | (6.27±0.41)a | (23.87±1.6)b | (43.64±3.4)b | (52.15±11.06)b | |
N4(18.84%) | (10.32±0.65)b | (41.36±2.04)a | (82.01±3.94)a | (217.54±50.34)a | |
N5(30.31%) | (4.86±0.26)c | (37.56±2.78)a | (76.52±3.54)a | (88.64±3.86)b |
Table 3 Effects of artificial diet with different nitrogen content levels on the insect weights of Asian corn furnacalis(Guenee) populations at different instars
温度 Temperature (℃) | N素含量 Nitrogen content | 3龄 3rd instar(mg) | 4龄 4th instar(mg) | 5龄 5th instar(mg) | 蛹 Pupal(mg) |
---|---|---|---|---|---|
20 | N1(3.94%) | (1.94±0.19)c | (7.81±3.91)b | (8.82±0.54)b | — |
N2(7.33%) | (3.76±0.29)b | (14.12±1.38)a | (45.17±4.33)a | (67.68±6.47)ab | |
N3(10.69%)(CK) | (4.81±0.52)a | (17.96±1.86)a | (44.55±3.91)a | (81.61±5.96)a | |
N4(18.84%) | (3.79±0.31)b | (16.59±1.69)a | (44.98±3.88)a | (79.74±4.56)ab | |
N5(30.31%) | (3.05±0.29)bc | (15.79±1.86)a | (43.75±5.31)a | (57.21±4.82)b | |
25 | N1(3.94%) | (3.82±0.33)b | (13.36±1.46)d | (15.23±1.38)b | (16.8±0.31)c |
N2(7.33%) | (4.015±1.21)a | (14.5±2.63)bc | (45.46±4.45)a | (50.52±2.71)b | |
N3(10.69%)(CK) | (4.72±0.29)b | (18.74±1.72)cd | (71.09±9.5)a | (70.12±4.13)ab | |
N4(18.84%) | (10.28±1.32)a | (39.78±7.79)a | (71.69±14.86)a | (80.09±6.28)a | |
N5(30.31%) | (7.75±0.81)a | (32.99±3.45)ab | (51.56±4.25)a | (77.47±3.97)a | |
30 | N1(3.94%) | (4.99±0.41)c | (7.82±0.82)d | (13.46±1.74)d | — |
N2(7.33%) | (5.94±0.32)b | (17.64±1.93)c | (30.68±2.38)c | — | |
N3(10.69%)(CK) | (6.27±0.41)a | (23.87±1.6)b | (43.64±3.4)b | (52.15±11.06)b | |
N4(18.84%) | (10.32±0.65)b | (41.36±2.04)a | (82.01±3.94)a | (217.54±50.34)a | |
N5(30.31%) | (4.86±0.26)c | (37.56±2.78)a | (76.52±3.54)a | (88.64±3.86)b |
温度 Temper ature(℃) | N素含量 Nitrogen content | 化蛹率 Pupa rate (%) | 羽化率 Emerg ence rate (%) | 存活率 Survival rate (%) | 雌雄比 Sex propor tion | 雌虫寿命 Female lifespan(d) | 平均单雌产卵量(粒) Average number of eggs laid per female |
---|---|---|---|---|---|---|---|
20 | N1(3.94%) | 9.09 | — | 10.89 | — | — | — |
N2(7.33%) | 55.68 | 63.27 | 80.13 | 1∶1.06 | (16.86±2.29)ab | (43.77±7.35)a | |
N3(10.69%)(CK) | 94.67 | 39.62 | 74.26 | 1∶1.03 | (12.17±2.29)b | (68.18±8.38)a | |
N4(18.84%) | 78.16 | 59.46 | 86.14 | 1∶0.72 | (25.93±1.49)ab | (70.92±4.35)a | |
N5(30.31%) | 61.40 | 51.35 | 56.44 | 1∶0.62 | (17.41±1.72)a | (44.22±9.38)a | |
25 | N1(3.94%) | 33.33 | 16.67 | 35.64 | 1∶1.04 | — | — |
N2(7.33%) | 54.95 | 63.46 | 80.10 | 1∶1.05 | (13.63±1.63)a | (69.36±14.15)b | |
N3(10.69%)(CK) | 98.57 | 84.29 | 89.11 | 1∶1.15 | (11.53±0.88)a | (119.85±6.72)a | |
N4(18.84%) | 86.17 | 74.70 | 93.07 | 1∶0.84 | (15±1.18)a | (120.12±9.73)a | |
N5(30.31%) | 85.56 | 70.00 | 69.31 | 1∶1 | (12.29±1.22)a | (95.95±6.57)a | |
30 | N1(3.94%) | — | — | 25.64 | — | — | — |
N2(7.33%) | 16.42 | 45.45 | 60.22 | 1∶1 | (6.5±0.5)a | (59.33±13.45)b | |
N3(10.69%)(CK) | 61.67 | 59.45 | 73.12 | 1∶0.86 | (6.88±0.72)a | (112.22±8.93)a | |
N4(18.84%) | 98.66 | 95.45 | 91.33 | 1∶1.02 | (8.11±0.72)a | (115.45±6.45)a | |
N5(30.31%) | 94.51 | 85.88 | 88.46 | 1∶0.94 | (7.7±0.63)a | (88.45±6.03)a |
Table 4 Effects of artificial diet with different nitrogen content levels on the biological characteristics of Asian corn borer,Ostrinia furnacalis(Guenee)
温度 Temper ature(℃) | N素含量 Nitrogen content | 化蛹率 Pupa rate (%) | 羽化率 Emerg ence rate (%) | 存活率 Survival rate (%) | 雌雄比 Sex propor tion | 雌虫寿命 Female lifespan(d) | 平均单雌产卵量(粒) Average number of eggs laid per female |
---|---|---|---|---|---|---|---|
20 | N1(3.94%) | 9.09 | — | 10.89 | — | — | — |
N2(7.33%) | 55.68 | 63.27 | 80.13 | 1∶1.06 | (16.86±2.29)ab | (43.77±7.35)a | |
N3(10.69%)(CK) | 94.67 | 39.62 | 74.26 | 1∶1.03 | (12.17±2.29)b | (68.18±8.38)a | |
N4(18.84%) | 78.16 | 59.46 | 86.14 | 1∶0.72 | (25.93±1.49)ab | (70.92±4.35)a | |
N5(30.31%) | 61.40 | 51.35 | 56.44 | 1∶0.62 | (17.41±1.72)a | (44.22±9.38)a | |
25 | N1(3.94%) | 33.33 | 16.67 | 35.64 | 1∶1.04 | — | — |
N2(7.33%) | 54.95 | 63.46 | 80.10 | 1∶1.05 | (13.63±1.63)a | (69.36±14.15)b | |
N3(10.69%)(CK) | 98.57 | 84.29 | 89.11 | 1∶1.15 | (11.53±0.88)a | (119.85±6.72)a | |
N4(18.84%) | 86.17 | 74.70 | 93.07 | 1∶0.84 | (15±1.18)a | (120.12±9.73)a | |
N5(30.31%) | 85.56 | 70.00 | 69.31 | 1∶1 | (12.29±1.22)a | (95.95±6.57)a | |
30 | N1(3.94%) | — | — | 25.64 | — | — | — |
N2(7.33%) | 16.42 | 45.45 | 60.22 | 1∶1 | (6.5±0.5)a | (59.33±13.45)b | |
N3(10.69%)(CK) | 61.67 | 59.45 | 73.12 | 1∶0.86 | (6.88±0.72)a | (112.22±8.93)a | |
N4(18.84%) | 98.66 | 95.45 | 91.33 | 1∶1.02 | (8.11±0.72)a | (115.45±6.45)a | |
N5(30.31%) | 94.51 | 85.88 | 88.46 | 1∶0.94 | (7.7±0.63)a | (88.45±6.03)a |
温度 Temperature (℃) | N素含量 Nitrogen content | 内禀增长率 Rm | 净增殖率 R0 | 周限增长率 λ | 平均世 代历期 T(d) | 种群加 倍时间 t | 孵化率 (%) |
---|---|---|---|---|---|---|---|
20 | N1(3.94%) | — | — | — | — | — | — |
N2(7.33%) | 0.04 | 27.98 | 1.04 | 82.28 | 17.12 | 72.50 | |
N3(10.69%)(CK) | 0.07 | 49.13 | 1.07 | 54.74 | 9.74 | 61.87 | |
N4(18.84%) | 0.06 | 63.12 | 1.06 | 60.79 | 11.58 | 90.09 | |
N5(30.31%) | 0.05 | 26.15 | 1.06 | 69.27 | 12.91 | 68.37 | |
25 | N1(3.94%) | — | — | — | — | — | — |
N2(7.33%) | 0.09 | 45.81 | 1.10 | 40.97 | 7.43 | 55.79 | |
N3(10.69%)(CK) | 0.10 | 65.72 | 1.10 | 43.89 | 7.27 | 87.87 | |
N4(18.84%) | 0.13 | 66.14 | 1.14 | 30.79 | 5.17 | 90.06 | |
N5(30.31%) | 0.04 | 44.71 | 1.04 | 92.36 | 16.85 | 77.33 | |
30 | N1(3.94%) | — | — | — | — | — | — |
N2(7.33%) | 0.08 | 31.62 | 1.04 | 51.06 | 7.77 | 55.79 | |
N3(10.69%)(CK) | 0.1 | 61.59 | 1.10 | 39.28 | 6.75 | 87.87 | |
N4(18.84%) | 0.14 | 59.83 | 1.11 | 27.53 | 4.69 | 90.06 | |
N5(30.31%) | 0.06 | 41.64 | 1.10 | 88.11 | 13.82 | 77.33 |
Table 5 Effects of artificial diet with different nitrogen content levels on population proliferation parameters of Asian corn borer,Ostrinia furnacalis(Guenee)
温度 Temperature (℃) | N素含量 Nitrogen content | 内禀增长率 Rm | 净增殖率 R0 | 周限增长率 λ | 平均世 代历期 T(d) | 种群加 倍时间 t | 孵化率 (%) |
---|---|---|---|---|---|---|---|
20 | N1(3.94%) | — | — | — | — | — | — |
N2(7.33%) | 0.04 | 27.98 | 1.04 | 82.28 | 17.12 | 72.50 | |
N3(10.69%)(CK) | 0.07 | 49.13 | 1.07 | 54.74 | 9.74 | 61.87 | |
N4(18.84%) | 0.06 | 63.12 | 1.06 | 60.79 | 11.58 | 90.09 | |
N5(30.31%) | 0.05 | 26.15 | 1.06 | 69.27 | 12.91 | 68.37 | |
25 | N1(3.94%) | — | — | — | — | — | — |
N2(7.33%) | 0.09 | 45.81 | 1.10 | 40.97 | 7.43 | 55.79 | |
N3(10.69%)(CK) | 0.10 | 65.72 | 1.10 | 43.89 | 7.27 | 87.87 | |
N4(18.84%) | 0.13 | 66.14 | 1.14 | 30.79 | 5.17 | 90.06 | |
N5(30.31%) | 0.04 | 44.71 | 1.04 | 92.36 | 16.85 | 77.33 | |
30 | N1(3.94%) | — | — | — | — | — | — |
N2(7.33%) | 0.08 | 31.62 | 1.04 | 51.06 | 7.77 | 55.79 | |
N3(10.69%)(CK) | 0.1 | 61.59 | 1.10 | 39.28 | 6.75 | 87.87 | |
N4(18.84%) | 0.14 | 59.83 | 1.11 | 27.53 | 4.69 | 90.06 | |
N5(30.31%) | 0.06 | 41.64 | 1.10 | 88.11 | 13.82 | 77.33 |
[1] | 刘宏伟, 鲁新, 李丽娟. 我国亚洲玉米螟的防治现状及展望[J]. 玉米科学, 2005,(S1):142-143,147. |
LIU Hongwei, LU Xin, LI Lijuan. The current status and prospects of the control of Asian corn borer in my country[J]. Maize Science, 2005,(S1):142-143,147. | |
[2] | 陈斌, 和淑琪, 张立敏, 等. 甘蔗间作玉米对亚洲玉米螟发生为害的控制作用[J]. 植物保护学报, 2015, 42 (4) :591-597. |
CHEN Bin, HE Shuqi, ZHANG Limin, et al. The control effect of sugarcane intercropping corn on the occurrence ofAsian corn borer[J]. Acta Phytophylacica Sinica, 2015, 42(4):591-597. | |
[3] | 李欣诺, 王丽艳, 张海燕, 等. 不同温度下亚洲玉米螟实验种群生命表[J]. 湖北农业科学, 2015, 54(8):1869-1872. |
LI Xinnuo, WANG Liyan, ZHANG Haiyan, et al. Experimental population life table of Asian corn borer at different temperatures[J]. Hubei Agricultural Sciences, 2015, 54(8):1869-1872. | |
[4] | 马超. 氮肥对茶树生理特性及茶蚜生态适应性的影响[D]. 福州: 福建农林大学, 2009. |
MA Chao. Effects of nitrogen fertilizer on the physiological characteristics of tea trees and the ecological adaptability of tea aphids[D]. Fuzhou: Fujian Agriculture and Forestry University, 2009. | |
[5] | 方圆, 张晨萱, 杨峰山, 等. 亚洲玉米螟(Osrinia furnacalis)人工饲料研究进展[J]. 黑龙江科学, 2019, 10(20):1-5. |
FANG Yuan, ZHANG Chenxuan, YANG Fengshan, et al. Research progress on artificial feed of Asian corn borer (Osrinia furnacalis)[J]. Heilongjiang Science, 2019, 10(20):1-5. | |
[6] | 吕仲贤, 胡萃, 杨樟法. 氮和糖对亚洲玉米螟幼虫生长发育的影响[J]. 浙江农业学报, 1996,(4):222-225. |
LÜ Zhongxian, HU Cui, YANG Zhangfa. Effects of nitrogen and sugar on the growth and development of Asian corn borer larvae[J]. Journal of Zhejiang Agricultural Sciences, 1996,(4):222-225. | |
[7] | 范涛. 氮量对水稻与褐飞虱互作关系的影响[D]. 武汉: 华中农业大学, 2017. |
FAN Tao. The effect of nitrogen on the interaction between rice and brown planthopper[D]. Wuhan: Huazhong Agricultural University, 2017. | |
[8] | 吕仲贤, 胡萃, 杨樟法. 亚洲玉米螟幼虫对氮、糖的吸收和利用[J]. 昆虫学报, 1997,(2):151-157. |
LÜ Zhongxian, HU Cui, YANG Zhangfa. Assimilation and utilization of nitrogen and sugar by Asian corn borer larvae[J]. Acta Entomologica Sinica, 1997,(2):151-157. | |
[9] | Chu Y I, Horng S B. Effects of slag and nitrogen fertilizer on the damage of Asian corn borer to field corn[J]. Memoirs of the College of Agriculture, National Taiwan University, 1994, 34(1):45-53. |
[10] | 黄建清. 氮肥对水稻—稻纵卷叶螟—稻纵卷叶螟绒茧蜂三级营养关系的影响[D]. 福州: 福建农林大学, 2006. |
HUANG Jianqing. Effects of nitrogen fertilizer on the three-level nutritional relationship of rice-Cnaphalocrocis medinalis-Cnaphalocrocis medinalis[D]. Fuzhou: Fujian Agriculture and Forestry University, 2006. | |
[11] | Gernays EA, Chapman R F. Host—plant selection by phy-tophagous insects[M]. New York: Chapman and Hall, 1994. |
[12] | Wang M Q, Wu R Z. Effects of nitrogen fertilizer on the resistance of rice varieties to brown planthopper[J]. Guangdong Agric.Sci., 199l,(1):25-27. |
[13] | Sogawa K. Studies on feeding habits of brown planthopper I.Effects of nitrogen deficiency of host plats on insect feeding[J]. Japanese Journal of Applied Entomology and Zoology, 1970. |
[14] | Lu Z X, Heong K L, Yu X P, et al. Effects of plant nitrogen on fitness of the brown planthopper, Nilaparvata lugens Stal. in rice[J]. Journal of Asia-Pacific Entomology, 2004, 7(1):97-104. |
[15] | Mattson W J. Herbivory in relation to plant nitrogen content[J]. Annual Review of Ecology & Systematics, 1980, 11(1):119-161. |
[16] |
Minkenberg O P, Ottenheim J J. Effect of leaf nitrogen content of tomato plants on preference and performance of a leafmining fly[J]. Oecologia, 1990, 83:291-298.
DOI URL |
[17] | Bentz J A, Reeves J, Barbosa P, Francis B. Effect of nitrogen fertilizer source and level on ovipositional choice of poinsettia by Bemisia argentifolii (Homoptera: Aleyrodidae)[J]. Journal of Economic Entomology, 1995, 5:1388-1392. |
[18] | Bentz J A, Larew H G. Ovipositional preference and nymphal performance of Trialeurodes vaporariorum on Dendranthema grandiflora under different fertilizer regimes[J]. Journal of Economic Entomology, 1992, 85:5l4-5l7. |
[19] | Cisneros J J, Godfrey L D. Midseason pest status of the cotton aphid in California cotton:Is nitrogen a key factor[J]. Journal of Economic Entomology, 200l, 30:501-510. |
[20] |
Yigen Chen, John R,. Ruberson, Dawn M. Olson. Nitrogen fertilization rate affects feeding, larval performance, and oviposition preference of the beetarmyworm,Spodoptera exigua, on cotton[J]. Entomologia Experimentalis et Applicata, 2008, 126: 244-255.
DOI URL |
[21] | 魏智娟. 氮肥对茶树及主要害虫和天敌的影响[D]. 福州: 福建农林大学, 2008. |
WEI Zhijuan. Effects of nitrogen fertilizer on tea trees and main pests and natural enemies[D]. Fuzhou: Fujian Agriculture and Forestry University, 2008. | |
[22] | 宋彦英, 周大荣, 何康来. 亚洲玉米螟无琼脂半人工饲料的研究与应用[J]. 植物保护学报, 1999,(4):324-328. |
SONG Yanying, ZHOU Darong, HE Kanglai. Study and application of agar-free semi-artificial feed for Asian corn borer[J]. Acta Phytophylacica Sinica, 1999,(4):324-328. | |
[23] | 张孝羲. 昆虫生态及预测预报[M]. 北京: 中国农业出版社, 2002. |
ZHANG Xiaoxi. Insect Ecology and Prediction[M]. Beijing: China Agriculture Press, 2002. | |
[24] | 卢伟, 侯茂林, 文吉辉, 等. 土壤施肥对烟粉虱生长发育、寄主选择及繁殖的影响[J]. 中国生态农业学报, 2008, 16(4): 914-920. |
LU Wei, HOU Maolin, WEN Jihui, et al. Effects of soil fertilization on growth, host selection and reproduction of Bemisia tabaci[J]. Chinese Journal of Eco-Agriculture, 2008, 16(4): 914-920. | |
[25] | 庞淑婷, 董元华. 不同叶面肥对番茄植株生理生化及烟粉虱种群生态的影响[J]. 中国生态农业学报, 2013, 21(4): 465-473. |
PANG Shuting, DONG Yuanhua. Effects of different leaf fertilizers on tomato plant physiology and biochemistry and Bemisia tabaci population ecology[J]. Chinese Journal of Eco-Agriculture, 2013, 21(4): 465-473. | |
[26] | 杨亚军, 李向冬, 徐红星, 等. 氮肥促进Bt水稻和非Bt水稻上溴氰菊酯诱导的褐飞虱再猖獗能力. 昆虫学报, 2016, 59(11): 1263-1271. |
YANG Yajun, LI Xiangdong, XU Hongxing, et al. Nitrogen fertilizer promotes the resurgence of brown planthopper induced by deltamethrin on Bt and non-Bt rice[J]. Acta Entomologica Sinica, 2016, 59(11): 1263-1271. | |
[27] | 马艳, 夏敬源. 取食不同施氮量棉花对棉铃虫发育与繁殖的影响[J]. 中国棉花, 1997, 24(1):14-15. |
MA Yan, XIA Jingyuan. Effects of feeding cotton with different nitrogen application rates on the development and reproduction of cotton bollworm[J]. China Cotton, 1997, 24(1): 14-15. | |
[28] | 高海燕, 王静, 朱九生, 等. 亚致死剂量甲氨基阿维菌素苯甲酸盐对家蚕食物利用的影响[J]. 农药学学报, 2008(3):297-302. |
GAO Haiyan, WANG Jing,. ZHU Jiusheng. et al. Effects of sublethal dose of emamectin benzoate on food utilization of silkworm,Bombyx mori[J]. Acta Pesticide Science, 2008(3):297-302. |
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