Unknown
Basic Information
Cultivar ID
HYP_HS
Crop Code
SC
Maturity Group
.
Registered Date
2026-01-30 02:09
라이센스 (License)
BSD-3-Clause
Hierarchy Information (Hierarchy)
Species
SCCAN048
SCCAN048
Ecotype
-
Metadata
Notes
Imported from SCCAN048.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 |
|---|
Detailed Hierarchy Information (Detailed Hierarchy)
Species
SCCAN048
SCCAN048
Species Parameters
| Parameter | Value |
|---|---|
| ImportDate | 2026-01-30T01:11:04.5822571Z |
| FileName | SCCAN048 |
| FileContent | |
| ! Canegro Sugarcane Plant Module SPECIES file ! This file contains coefficients that are used for ALL cultivars of sugarcane. ! DO NOT change these values, unless you are REALLY sure you are right! ! Lines starting with an exclamation mark or a '*' are effectively ignored. ! Blank lines are ignored ! All values consist of a text variable name, followed by an equals sign ('='). ! All text before the equals sign (on one line), with leading and trailing spaces ! removed, will be considered the variable name. All text, minus the spaces, ! following the equals sign will be considered the variable's values. Variables ! are not ordered, and need not be arranged according to the headings. ! ** ALWAYS enter REAL values e.g. 0., 1.2, 67., NOT integers ** ! The headings give an indication of where parameters are used in the code. ! Name | Value | Category | Description | Reference !--------------+-------+---------------------+---------------------------------------------------------------------------------------------------+---------------------------------------- ! Tbasephotos | 7 | Photosynthesis | Base temperature for photosynthesis | Singels et al., 2005 ! Critsw | 0.2 | Photosynthesis | Water stress threshold for prolonged impact from severe water stress on photosynthesis | ! HuRecover | 150 | Photosynthesis | Thermal time required for photosynthesis to recover fully after a severe water stress event | ! RespQ10 | 1.68 | Photosynthesis | Fractional increase in respiration rate per 10 C rise in temperature (Q10 coefficient) | Inman-Bamber, 1991 ! PCB | 0.6 | Biomass partitionin | Partitioning coefficient: extinction coefficient of fraction of dry mass increments allocated to | Parameter 'B' in Singels & Bezuidenhout ! RespGcf | 0.242 | Photosynthesis | Fraction of gross photosynthesis lost to growth respiration | Inman-Bamber, 1991 ! Max_rootpf | 0.95 | Biomass partitionin | Maximum partition fraction of daily mass increments to roots | ! FTCON | 0.32 | Sucrose accumulatio | Temperature response shape parameter | Singels & Bezuidenhout, 2002 ! SURCON | 0.99 | Sucrose accumulatio | Sucrose partitioning parameter | ! RTcmpg | 500 | Root growth | Root length per mass of roots (cm/g) | ! Wrk | -0.01 | Root growth | Root length density extinction coefficient by depth | ! RLVmin | 0.02 | Root growth | Minimum root length density in soil layers (cm/cm3) | ! SenesF | 5 | Canopy | Number of leaves senesced per 100 stress days | ! Reset | 5 | Canopy | Rainfall required to reset stress day counter (mm) | ! Percoeff | 0.16 | Canopy | Fraction of plant elongation attributable to stalk elongation | Inman-Bamber, 1991 ! CHTCoeff | 0.864 | Canopy - height | Coefficient determining canopy height as a function of stalk height and number of leaves (cm/cm) | ! Hillpar1 | 2.453 | Canesim canopy | Empirical function shape parameter | Singels & Donaldson (2000) ! Eoratio | 1.15 | Water balance | Ratio of potential ET from fully canopied unstressed sugarcane canopy to grass reference ET (Kc f | Allen et al. (1998) ! RWUEP1 | 1 | Water balance | Soil water supply/potential evaporation ratio threshold below which evaporation and photosynthesi | Jones & Kiniry (1986) ! RWUEP2 | 2 | Water balance | Soil water supply/potential evaporation ratio threshold below which expansive growth is limited | Jones & Kiniry (1986) ! RWUMX | 0.07 | Water uptake | Maximum root water uptake per unit length of root (cm3 water/cm RLV) | Jones & Kiniry (1986), van Antwerpen (1 ! LG_RATING | 8 | Lodging | Lodging score when crop is fully lodged. | Singels 2007 (Pers comm..) ! LG_CRIT_WIND | 200 | Lodging | Wind run (km/d) threshold for lodging | !----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- *PHOTOSYNTHESIS & BIOMASS PARTITIONING TBasePhotos = 10.0 CRITSW = 0.2 HuRecover = 150.0 RespQ10 = 1.68 PCB = 0.6 MAX_ROOTPF = 0.95 FTCON = 0.32 SURCON = 0.99 ! Growth respiration: based on daily mass of fibre synthesis ! i.e. growth of leaves, roots, stalks; photos partitioned to sucrose excluded. ! I think is from Ampthor RESPGCF = 0.330 ! Maintenance respiration: only roots, leaves (green tissues) and sucrose have Rm ! Based on / derived from Liu & Bull (2001); Inman-Bamber 1989, 1991. RESPCON_ROOTS = 0.00292 RESPCON_LEAVES = 0.00292 RESPCON_SUCR = 0.00121 *ROOTS ! 2023-03-31 HBD Increased RTCMPG to 3000.0 based on other C4 plants within DSSAT RTCMPG = 3000.0 WRK = -0.01 RLVMIN = 0.02 ! Added Jan 2018 ! Minimum pore space for avoiding waterlogging (cm3/cm3) PORM = 0.05 *CANOPY SENESF = 5.0 RESET = 5.0 ! Changed from 0.16 by MJ following TT calc changes PERCoeff = 0.35 CHTCoeff = 0.864 HillPar1 = 2.453 *WATER BALANCE EORATIO = 1.15 RWUEP1 = 1.0 RWUEP2 = 2.0 RWUMX = 0.07 *LODGING LG_RATING = 8.0 LG_CRIT_WIND = 200. CO2X_1 = 0 CO2X_2 = 220 CO2X_3 = 280 CO2X_4 = 330 CO2X_5 = 400 CO2X_6 = 490 CO2X_7 = 570 CO2X_8 = 750 CO2X_9 = 990 CO2X_10 = 9999 CO2Y_1 = 0 CO2Y_2 = 0.85 CO2Y_3 = 0.95 CO2Y_4 = 1.00 CO2Y_5 = 1.00 CO2Y_6 = 1.00 CO2Y_7 = 1.00 CO2Y_8 = 1.00 CO2Y_9 = 1.00 CO2Y_10 = 1.00 !*EVAPOTRANSPIRATION 0.68 1.1 KEP, EORATIO 0.50 1.20 SSKC, SKCBmax ASCE short ref (12 cm grass) 0.50 1.00 TSKC, TKCBmax ASCE tall ref (50 cm alfalfa) | |