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6 a a 0.5 1,800ha FOEAS ha

7 111b (2014)104:81-87

8 FOEAS FOEAS ha FOEAS FOEAS 60cm FOEAS FOEAS FOEAS 4 FOEAS FOEAS

9 kg/10a FOEAS -30cm FOEAS FOEAS -30cm FOEAS -30cm 111a2111a3111b1111b2111b3111b4111b5 113a

10 R 1350 R 1311 R 1324 F1 IV 60% 1,600ha 30%

11 112e ) (2014)13: )

12 ABC D ha ha2018 1,000ha

13 kg/a % cm cm g % ABCD AB ABCD ABCD AB AB f ) : )

14 ABC D m ha 0.4ha 1,000ha 800ha

15 kg/a % cm cm g % ABCD AB ABCD AB AB ABCD AB f ) : )

16

17 113a )(2013) ) (2014)13(2): (2014)13(4):

18 Web 1,000

19 114c )(2011)2011: )(2012)50(3): )(2013)51(2):72-77

20 58%% Zea mays L. Lolium multiflorum Lam. PTO 2.5m 75cm 67% 58% 5.7h/ha27.4L/ha 40ha 40ha kg % 1,800ha 15cm 50cm 88kW

21 kg/10a ,000 /h % 5 1,962kg/10a 1,942kg/10a c (2015)61(1):12-16

22 ALF WCS WCS IRG IRG WCS R R IRG WCS IRG 370kg/10a WCS 510kg/10a IRG IRG TDN WCS ALF 300ha ALF 2013 kgirg 27 JD-1750 NTP2 75cm 4060cm

23 IRG IRG ha-0.44ha V IRG TDN ADF ALF TDN ADF IRG R5 R7 IRG ALF 120c )Kaneko M. et al. (2011) Grassl. Sci. 57(1): )Kawamoto H. et al. (2013) Grassl.Sci. 59(2): )Touno E. et al. (2014) Anim. Sci. J. 85(1):46-52

24 15 /100400kg kg TMR cm kg430kg 5kg ha20 100cm 85cm 400kg 2014

25 RMSE3.2kg TMR 120c6 () )(2014)60(3): )(2014)60(4):

26 WCS % 15% mm CPEEASH NDFomADFom ASHNDFomADFom Model 6500Foss NIRSystems nm Segment 20GapPartial Least Square RegressionPLSR SEP RPD RPD 2.3 CPEEASH NDFomADFom 32

27 SD/SEP RPD; 2.3>2.3~3.03.0~ ~8.08.0< ( c

28 , % 540, % :

29 3.5% 4.4% X a b1 e Xijk : i, j, k aijkm :m zm(t) :Legendre m b1ijk :Wilmink b2k :Wilmink DIM : 2 DIM % 3.75% a )(2013)84(1):1-10 2)(2015)86(1):13-27

30 % %

31 f )(2014)85: )Yamazaki et al. (2014)Livest. Sci. 168: )Hagiya et al. (2013)Animal 7:

32 PO AMeDAS 25% 6370 % 3.2 mm X 30-40cm 26

33 ののブレースやによるとともにのカーテン ののののの 4545 mm 5050 mm 63-70% 3.2 mm G.L. 141b (2014)45(3):

34 μmol/m 2 /s 40cm a /10a 40ha 15 ha 26

35 100μmol/m 2 /s f (2014) 13(2):

36 mg ha 60ha

37 a a a b b b c b b z mg f ( )

38 Solanum melongena L DNA HiSeq Gb1Gb Gb 115Gb 1.09Gb 96.5% 1 DNA 454 GS FLX 0.038Gb 1.09Gb DNA 500 SME_r Gb N50 64,536 1 SME_r , SME_r ,035 50% 21,445 7,614 16,573 DNA

39 1) 50% 2) SME_r ,780 4,018 7,614 E01 E12 SL2.40ch01 SL2.40ch g DNA DNA DNA DNA DNA 1)Hirakawa H. et al. (2014) DNA Res. 21(6): )Fukuoka H. et al. (2012) Theor. Appl. Genet. 125(1):47-56

40 g 13.0% ph % S S 1S 4 :12 34 ) 2015

41 142a ( )

42 g 14.2 ph 5.1 S S 5S k :12 33 ) 2015

43 142a ( )

44 g

45 142b ( )

46 g 3.0mm 79%

47 の 100% 90% 80% 70% 60% 50% 40% 30% 20% 10% 0% 24 ( ) 142c ( )

48 GA PDJ GA PDJ 80 ppm GA 25ppm PDJ 3.3ppm GA 25ppm PDJ ppm GA 50ppm PDJ 3.3ppm GA 25ppm PDJ GA ppm GA 3.3ppm

49 142c ( )

50 N 2O N 2O N 2O N 2O 20% N 2O N 2O a b N 2O 39 55% N 2O 35%a N 2O b c N 2O 10 cm 10 cm CO 2 N 2O

51 N N 2 O flux 2 O (ugn/g/hr) μgn/g/ Control Nitr. Inhibit. 20% 5% 5 00% N 2O N 2O N N 2 O 2 O (mgn/m2/hr) % Control N 2 O (mgn/m2/hr) % Wide N 2 O (mgn/m2/hr) (c) (a) Control Control Wide (b) Wide N 2O (a) (b) (c) 151a report/publication/laboratory/vegetea/pamph/index. html ( )

52 Solanum peruvianum kg/10a % 10 g Solanum peruvianum Globodera rostochiensis PCN Solanum peruvianum Solanum sisymbriifolium PCN PCN 40 90% PCN PCN PCN kg/10a PCN 20%PCN g 50 g 10 NPK 10kg/10a PCN PCN 100ha

53 152a (2012)63:

54 Tomato chlorotic dwarf viroid; TCDVd 2009 Potato spindle tuber viroid; PSTVd PSTVd TCDVd Tomato apical stunt viroid; TASVd Columnea latent viroid; CLVd PSTVd TCDVd RT-PCR PSTVd TCDVdTASVdCLVd TCDVd TASVd TASVd CLVd PSTVd TCDVd TASVd PSTVd TCDVdTASVdCLVd RT-PCR

55 152a Matsushita Y. and Tsuda S. (2014) Eur. J. Plant Pathol. doi: /s

56 j3z2z3z4s4s6j2r1z4z5 j3z2z3z4s4s6 19

57 152b ) (2014) 2) (2012)66(10):1-4 3) (2012)56(4): ) Toyoshima S. et al. (2014) J. Acarol. Soc. Jpn. 23(1):29-33

58 Web Web Web

59 152d

60 ph ph ph7.5 ph ph ph ph ph ph7.5 ph 50ha ph 10a t ph 10

61 ph ph ph ph ph6.4 Fusarium oxysporum ph a )(2015) ph 2)(2014)65:85-92

62 JAS280ha ,140ha a 5.9/10a 15.6/10a10a a haJAS 0.72haJAS 404ha ha

63 b

64 ISO ISOBUS AG-PORT ISOBUSAG-PORT ISOBUSAG-PORTISO ECU IT IT ISO ISOBUS AG-PORT ISO AgribusBoard AG-PORT 2012 ISO ISOBUS AG-PORT ISO ISOBUS AG-PORT ISO ECU ECU ISOBUSAG-PORT ECU ISOBUS AG-PORT ON/OFF ISO ISO ISOBUS CAN PTO ON/OFF ISOBUS AG-PORT ISOBUSAG- PORT ISOBUS AG-PORT

65 (1) (2) (3) IT 160d0160a0111b )(2014) ECU -K10 2)(2014)ISO K05 3)(2011)73(4):

66 PCR PCR PCR PCR PCR PCR 16S rrna PCR DNA 14 1/2

67 371: 132: 355 (355/371=95.7%) = : 410: 170a Claude Lachance Céline RossignolMarcelo Gottschalk) Okura M. et al. (2014) J. Clin. Microbiol. 52(5):

68 S. TyphimuriumSTH ST PCR PCR A B ST Salmonella Typhimurium4:i: Salmonella TyphimuriumST ST 2 H ST 4:i:1,2 ST 4:i:- H 2 ST ST51 H ST 51 ST PCRm-PCR ST H PCR ST % H A ST PCR 8 16% H B ST H ST PCR PCR ST A B H 1,2 A ST B ST ST ST m-pcr

69 ST ST 170d Ido N. et al. (2014) PLoS ONE 9(8):e doi: /journal.pone

70 Culicoides LED LED 900 g 22 cm 20 cm 12V10 Ah 20 LED 365 nm 375 nm 470 nm 500 nm 525 nm 600 nm 625 nm LED LED ,754 LED LED

71 LED 170e )(2014)58(2): )(2014) ( )

72 RT-PCR Bovine ephemeral feverbef BEF RT-PCR BEF RT-PCR RT-PCR BEF RT-PCR BEF BEF RT-PCR BEF Khalil et al., BEF RT-PCR BEF

73 170e Niwa T. et al (2015) J. Vet. Med. Sci. 77(4):

74 50m 50m m 50 TescTssc RCS Tesc Tesc RCS Tssc RCS m m 40 RMSE ,500ha 50m 3,881ha Excel GPV 10

75 θθ base + θ θ base θ2 (T esc T ssc) θ θt esc T ssc T ssc θ θ T esc θ θ T esc & T ssc =α RCSβ αβ 210a )(2013) J.Agric.Meteorol. 69(3): )(2015) J.Agric.Meteorol. 3)

76 N 2OCH 4 N 2O N 2O NH 4+ N 2 N 2O NH 4+ NO 3- N 2O NH 4+ N 2 NO 2- NO 3- N 2O 1m 3 7 m kg 42 g-co 2 /m 3 / 725 g-co 2 /m 3 / BODNO 2- NO 3-15

77 g-co 2 /m 3 /day N 2 O CH 4 N2O CH4 0 NH 4 + NH 4 + NO 3- NO 3 - N 2 O N 2 BOD (mg/l) (mg/l) BOD TN NO3-N 3 NO2-N 2 NH4-N 4 Org-N NO 3-NNO 2-N NH 4-NOrg- N 210c )N 2O ( ) 2) Yamashita T. et al. (2015) Anim. Sci. J. doi: /asj.12302

78 JPP-NET 2014 JPP-NET JPP-NEThttp:// 1

79 /1 4/11 4/21 5/1 5/11 5/21 5/ CT1,CT d Yeqin Zhu, Yijun Zhou, Gufeng Zhang 1) Otuka A. et al. (2012) Appl. Entomol. Zool. 47: ) Sanada-Morimura S. et al. (2015) PLOS ONE 2

80 Y kW kW % 10% ( 2) 60,000t 24,000ha 13.3 /kg 12.3 /kg Y 38,000

81 220b ) 46(4), ,2011

82 CSH CSH CSH CSH 0.06% 80% 90% 0.06% 99% 15% 10 / / % 50 / CSH 0.06% m 3 CSH

83 PO 4 -P CSH 0 CSH CSH 3mH) CSH ph ph 220d ) ( ) 2)(2014)85(3): )Tanaka Y.et.al.(2014) Environ. Technol.,35(23):

84 Horwitz HorRat(Horwitz Ratio) 0.5<HorRat 2 10 F

85 (200mg), 12mL 90, 60 HPLC ODS (4.6 x 250 mm) -0.85% (1:1) 1mL/min (mg/g DW) RSD r (%) RSD R (%) HorRat * * 0.5 < HorRat 2 (mg/100g) a ) Watanabe. J. et al. (2012) Anal. Sci. 28(12): ) (2013). 60(10):

86 ,500ha 16,000ha Y 1,000ha2025

87 a

88 KRFo kg m ha Web

89 kg m KRFo kg m n= kg m Y = 6.21 [ exp ( X ) ] R 2 = day 3KRFo93-1 n= 3 1 KRFo93-1 KRFo93-1 g m -2 g m -2 g m -2 g m -2 g m -2 g m KRFo c )(2014)83(4): )(2015)84(1): )(2015) report/publication/pamphlet/techpamph/ html ( )

90 nm nm nm 766 nm nm 10 g g 100g K-BA100K-BA100RK-SS300 K-SS300LC 970 nm 2009 K-SS300LC

91 Brix(%) ( Brix (%)) n=94, =0.97 n=243, RMS=0.59 ( Brix (%)) 0.97 Σ Brix(%) 0.47 RMS ( Brix(%)) (g) 10-20g 330a Ito. H. (2014) JARQ 48(2):

92 AOA2009 AOA AOA AOA 0.1 mm 0.02mM 0.3% 0.58 mg/l ml/l AOA 50 PDF

93 330a )Oyama-Okubo N. et al. (2011) J. Japan. Soc. Hort. Sci. 80: )(2012)12: ) )(2014) ( )

94 mm cm 800 g 200 g 0.15% 10 g 120 m 60 60% 15% EU

95 330c )(2012)13(4): )(2014)15(1): ) ( )

96 a 0.1mm b EXCEL c 0.1mm m m/ 0.2mm/ 0.09mm/ 0.25mm/

97 mm n=8 n 2012 n=8 n=8 n=5 n= a : :

98 JIS ,800

99 コスト( として / JIS K 2283 / JIS K 2275 / JIS K 2501 IR / JIS K 0117 / JIS K 2220 / JIS K 2220 / JIS B 9934NAS1638 / JIS B 9931NAS1638 SOAP / ICP 11 ) 411a (1)

100 a b 20kN/m30kN/m

101 a b 1 a b c 412b )(2014) B270(2): )(2014) B270(2): )(2014)29:87-95

102 DB mm 20mm

103 412b (2015)

104 90% 95% % 0.075mm / a b 90% 85% 90% 95% 20 km %12.0%

105 (%) mm 57.8% % 12.0% % mm (mm) ab (%) () 85% 1 90% 1 95% % 90% (%) 412b )(2014): )(2014)294:35-45

106 Cs K 2O 100 g 30 mg K 2O Cs Cs 2012 Cs Cs Cs 2012 Cs Cs Cs Cs 100 g 30 mg K 2O Cs 2013 Cs 100 Bq kg -1 Cs 50 Bq kg Cs Cs ,930 ha 2014 Cs

107 250 Cs ( 134 Cs Cs) (Bq kg -1 ) ρ= (P=0.000) (mg K 2 O 100g -1 ) 1 Cs 2012 n=68 30 mg 100 g -1 Cs ( 134 Cs Cs) (Bq kg -1 ) ρ= (P=0.000) (mg K 2 O 100g -1 ) 2 Cs 2013 n=24 Cs 4085 Bq kg (mg K 2 O 100g -1 ) (a) 2013 (b) Cs b ) (2014) (2014 ) 2) Kubo K. et al. (2015) Field Crops Res. 170(1):40-46

108 cm 30-40mg-K 2O/100g cm cm 13mg- K 2O/100g t/10a K 2O=45kg/10a/

109 ( CsBq/kg80%) (0-5cm) (mg-k 2 O/100g) :1:2:3: : b0 JRA

110 m/s 2.2m 50m 30kg 10a a ha 5000ha

111 (m/s) /10a /10a *2 * * ) 2) 3035m 1.8 3) (3 ) 4) 2m 5) *2 (m/s) /10a /10a * ) 2) 3035m 1.8 3) (6 ) 600a

112 1.2ms cm cm PTO ms 1.2ms 30a/h 45a/h 240haha

113 600b

114 kg kg 400ha800 19,000ha 37,

115 MVC MVC % 50% 100% MVC MVC c (/h

116 JIS MPa JIS S MPa1.5MPa MPa

117 MPa min 600c

118 m 1.7m NC 2014

119 mm mm m/s mm 600c

120 40 IT M 24 L 20 L 20gML M 11L L g

121 IT 600d

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