Back to Library List

BSS0977 sh2

Basic Information
Cultivar ID SW0003
Crop Code SW
Maturity Group IB0001
Registered Date 2026-01-30 02:09
라이센스 (License) BSD-3-Clause
Hierarchy Information (Hierarchy)
Species
SWCER048 SWEET CORN SPECIES COEFFICIENTS
Ecotype
IB0001 GENERIC
Metadata
Notes

Imported from SWCER048.CUL

Detailed Genetic Analysis

🍭 사탕수수(Sugarcane) 및 딸기(Strawberry) 정밀 연구 라이브러리

Sugarcane & Strawberry Research Collection (SC/SR Series)는 다년생 고부가 가치 작물의 생육 특성과 당분/과실 축적 메커니즘을 시뮬레이션하기 위한 전문 데이터셋입니다. 브라질과 호주의 대규모 사탕수수 농장 데이터를 기반으로 한 CANEGRO 모델(SCCAN048)과 정밀 원예 작물 모델링의 정수인 딸기 모델(SRGRO048)을 포함합니다.

🔬 모델링 핵심 메커니즘

본 라이브러리는 작물별 특화된 생화학적 전환 과정을 정밀하게 모사합니다.

  • CANEGRO 사탕수수 모델 (SC): 줄기 연장(Stalk elongation)과 자당(Sucrose) 축적 간의 탄소 배분 우선순위를 계산하여, 최적의 수확 시기와 당도를 예측합니다.
  • 다년생 숙기 관리: 사탕수수의 숙성 과정에서 온도와 수분 스트레스가 당분 순도에 미치는 영향을 수치화합니다.
  • SRGRO 딸기 모델 (SR): 화아 분화(Flower differentiation)부터 과실 비대까지의 과정을 광주기 및 온도(Chilling requirements) 기반으로 추적하여 출하 시기를 조절합니다.

🍓 농사 및 산업적 응용 가치

  • 스마트팜 및 온실 최적화: 딸기 품종별(Radiance, Sensation 등) 온도 반응 곡선을 활용하여 온실 내부 환경 제어 로직을 고도화합니다.
  • 바이오 에너지 수급 예측: 사탕수수 줄기 내 섬유소 및 당 함량 분석을 통해 에탄올 생산 공장의 원료 공급 계획을 수립합니다.

📊 연구 파라미터 요약

핵심 변수군 상세 설명 기대 효과
Sucrose Partitioning 줄기 내 자당 축적 효율 최종 당도(Brix) 및 수확량 예측
Flower Induction Logic 저온 요구도 및 화분화 조건 연중 생산 체계(Staggered harvesting) 설계
Stalk Elongation Rate 환경에 따른 대나무형 생장 속도 바이오매스 생산 에너지 효율 분석
Genotype Parameters (Genetic Coeffs)
Parameter Value
P1 175
P2 0.3
P5 700
G2 500
G3 5
PHINT 50
Detailed Hierarchy Information (Detailed Hierarchy)
Species
SWCER048 SWEET CORN SPECIES COEFFICIENTS
Species Parameters
Parameter Value
ImportDate 2026-01-30T01:11:05.3174280Z
FileName SWCER048
FileContent
*SWEET CORN SPECIES COEFFICIENTS: SWCER048 MODEL *TEMPERATURE EFFECTS ! TBASE TOP1 TOP2 TMAX PRFTC 6.2 16.5 33.0 44.0 !Effect of temperature on photosynthesis RGFIL 5.5 16.0 39.0 48.5 !Effect of temperature on relative grain filling rate *PHOTOSYNTHESIS PARAMETERS PARSR 0.50 !Conversion of solar radiation to PAR CO2X 0 220 280 330 400 490 570 750 990 9999 CO2Y 0.00 0.85 0.95 1.00 1.02 1.04 1.05 1.06 1.07 1.08 *STRESS RESPONSE FSLFW 0.050 !Fraction of leaf area senesced under 100% water stress, 1/day FSLFN 0.050 !Fraction of leaf area senesced under 100% nitrogen stress, 1/day FSLFP 0.050 !Fraction of leaf area senesced under 100% phosphorus stress, 1/day *SEED GROWTH PARAMETERS SDSZ .2750 !Maximum potential seed size, mg/sd RSGR 0.1 !Relative seed growth rate below which plant may mature early RSGRT 5.0 !Number of consecutive days relative seed growth rate is below RSGR that triggers early maturity CARBOT 7.0 !Number of consecutive days CARBO is less than .001 before plant matures due to temperature, water or nitrogen stress DSGT 21.0 !Maximum days from sowing to germination before seed dies. DGET 150.0 !Growing degree days between germination and emergence after which the seed dies due to drought SWCG 0.02 !Minimimum available soil water required for seed germination, cm3/cm3 *EMERGENCE INITIAL CONDITIONS STMWTE 0.20 !Stem weight at emergence, g/plant RTWTE 0.20 !Root weight at emergence, g/plant LFWTE 0.20 !Leaf weight at emergence, g/plant SEEDRVE 0.20 !Carbohydrate reserve in seed at emergence, g/plant LEAFNOE 1.0 !Leaf number at emergence, #/plant PLAE 1.0 !Leaf area at emergence, cm2/plant *NITROGEN PARAMETERS TMNC 0.00450 !Plant top minimum N concentration g N/g dry matter TANCE 0.0440 !Nitrogen content in above ground biomass at emergence, g N/g dry matter RCNP 0.01060 !Root critical nitrogen concentration, g N/g root dry weight RANCE 0.0220 !Root N content at emergence g N/g root CTCNP1 1.52 !Maximum value for critical tissue N concentration (in developing seed embryo) CTCNP2 0.160 !Coefficent for change in conc. with growth stage *ROOT PARAMETERS PORM 0.05 !Minimum volume required for supplying oxygen to roots for optimum growth (1-1.0) RWMX 0.03 !Not used in ceres, but passed through AltPlant for use elsewhere RLWR 0.98 !mz_roots.for RWUEP1 1.50 *PLANT COMPOSITION VALUES PLIGLF 0.070 !Leaf lignin fraction PLIGST 0.070 !Stem lignin fraction PLIGRT 0.070 !Root lignin fraction PLIGSH 0.280 !Shell lignin fraction PLIGSD 0.020 !Seed lignin fraction !Other crop species could contain: ! PLIGTB 0.050 !Tuber lignin fraction ! PLIGNO 0.050 !Nodule lignin fraction !etc. *PHOSPHORUS CONTENT 0.0068 0.0020 0.0018 Optimum Shoot Conc (emergence, end leaf growth, phys. mat) -99.0 -99.0 -99.0 Optimum Leaf Conc ( " " " ) -99.0 -99.0 -99.0 Optimum Stem Conc ( " " " ) .00041 .00041 .00041 Optimum Root Conc ( " " " ) 0.0050 0.0050 0.0005 Optimum Shell Conc ( " " " ) 0.0035 0.0035 0.0035 Optimum Seed Conc ( " " " ) 0.0041 0.0012 0.0011 Minimum Shoot Conc ( " " " ) -99.0 -99.0 -99.0 Minimum Leaf Conc ( " " " ) -99.0 -99.0 -99.0 Minimum Stem Conc ( " " " ) .00020 .00020 .00020 Minimum Root Conc ( " " " ) 0.0025 0.0025 .00025 Minimum Shell Conc ( " " " ) .00175 .00175 .00175 Minimum Seed Conc ( " " " ) 25.0 15.0 9.3 Maximum Veg N:P ratio (emergence, eff. grain fill, phys. mat) 4.2 2.7 2.1 Minimum Veg N:P ratio (emergence, eff. grain fill, phys. mat) 0.80 1.00 SRATPHOTO, SRATPART 0.10 FracPMobil - max fraction of P which can be mobilized from leaf & stem / day 0.0028 ROOTRAD - radius of cylinder around roots from which soil P can be extracted (m) *FRESH WEIGHT Y Switch for fresh weight option !*EVAPOTRANSPIRATION 0.68 1.1 KEP, EORATIO 0.50 1.10 SSKC, SKCBmax ASCE short ref (12 cm grass) 0.50 0.92 TSKC, TKCBmax ASCE tall ref (50 cm alfalfa)
Ecotype
IB0001 GENERIC
Ecotype Parameters (Genetic Coeffs)
Parameter Value
TBASE 8
TOPT 34
ROPT 34
P20 12.5
DJTI 4
GDDE 6
DSGFT 170
RUE 4.2
KCAN 0.85