干旱气象
榦旱氣象
간한기상
GANSU METEOROLOGY
2012年
1期
53-58,65
,共7页
朱静%杨再强%柳笛%张波%顾礼力%张静
硃靜%楊再彊%柳笛%張波%顧禮力%張靜
주정%양재강%류적%장파%고례력%장정
寡照%芹菜%光合特性%荧光参数
寡照%芹菜%光閤特性%熒光參數
과조%근채%광합특성%형광삼수
sparse sunlight%celery%photosynthetic characteristics%fluorescence parameters
以芹菜品种"津南实芹1号"为试材,于2011年3~4月在南京信息工程大学人工控制温室设计寡照试验,测定不同寡照处理和恢复处理的光合参数及荧光参数。结果表明:随着寡照天数的增加,芹菜叶片的最大光合速率、光饱和点、光能初始利用效率显著低于对照,光补偿点逐渐增加;不同的寡照处理下,芹菜叶片最大光合速率与胞间CO2浓度关系最密切,其次与蒸腾速率有关;随着寡照处理天数的增加,芹菜叶片PSⅡ最大量子产量和光合电子传递速率都逐渐降低,非光化学淬灭值qN随着寡照天数增加逐渐增加。结合叶片光合速率和荧光参数,将寡照2~6 d分为轻度灾害(I级),7~11 d分为中度灾害(Ⅱ级),寡照处理12 d以上划分为重度灾害(Ⅲ级)。研究认为芹菜寡照处理第12 d以后,光系统活性受到严重损伤,无法恢复,因此芹菜寡照12 d是受灾的临界指标,研究结果为设施作物寡照气象灾害防御提供依据。
以芹菜品種"津南實芹1號"為試材,于2011年3~4月在南京信息工程大學人工控製溫室設計寡照試驗,測定不同寡照處理和恢複處理的光閤參數及熒光參數。結果錶明:隨著寡照天數的增加,芹菜葉片的最大光閤速率、光飽和點、光能初始利用效率顯著低于對照,光補償點逐漸增加;不同的寡照處理下,芹菜葉片最大光閤速率與胞間CO2濃度關繫最密切,其次與蒸騰速率有關;隨著寡照處理天數的增加,芹菜葉片PSⅡ最大量子產量和光閤電子傳遞速率都逐漸降低,非光化學淬滅值qN隨著寡照天數增加逐漸增加。結閤葉片光閤速率和熒光參數,將寡照2~6 d分為輕度災害(I級),7~11 d分為中度災害(Ⅱ級),寡照處理12 d以上劃分為重度災害(Ⅲ級)。研究認為芹菜寡照處理第12 d以後,光繫統活性受到嚴重損傷,無法恢複,因此芹菜寡照12 d是受災的臨界指標,研究結果為設施作物寡照氣象災害防禦提供依據。
이근채품충"진남실근1호"위시재,우2011년3~4월재남경신식공정대학인공공제온실설계과조시험,측정불동과조처리화회복처리적광합삼수급형광삼수。결과표명:수착과조천수적증가,근채협편적최대광합속솔、광포화점、광능초시이용효솔현저저우대조,광보상점축점증가;불동적과조처리하,근채협편최대광합속솔여포간CO2농도관계최밀절,기차여증등속솔유관;수착과조처리천수적증가,근채협편PSⅡ최대양자산량화광합전자전체속솔도축점강저,비광화학쉬멸치qN수착과조천수증가축점증가。결합협편광합속솔화형광삼수,장과조2~6 d분위경도재해(I급),7~11 d분위중도재해(Ⅱ급),과조처리12 d이상화분위중도재해(Ⅲ급)。연구인위근채과조처리제12 d이후,광계통활성수도엄중손상,무법회복,인차근채과조12 d시수재적림계지표,연구결과위설시작물과조기상재해방어제공의거。
The celery variety "Jinnan1Apium graveolens cv" was choosed to make sparse sunlight experiment in the artificial control greenhouse of the agrometeorological experiment station in Nanjing University of Information Science Technology from March to April in 2011,and the photosynthesis parameters and fluorescence parameters were measured under different sunlight shortage treatment.The results show that the maximum photosynthetic rate,light saturation point,solar energy initial utilization efficiency were significantly lower than that under natural sunlight with increase of sparse light date,and the light compensation point increased gradually.The maximum photosynthetic rate of celery leaves was closely associated with intercellular CO2 concentration and related with the transpiration rate under different sparse light treatment.The potential of photochemical efficiency(Fv/Fm) and the photosynthetic electron transfer efficiency(ETR) declined but the photochemical quenching(qN) increased evidently when the date of sparse sunshine increased.Combined with photosynthetic rate and fluorescence parameters of celery leaves,the duration of three to six days' sparse sunlight can be regarded as mild disaster(grade I),and seven to eleven day's sparse sunlight can be regarded as moderate disaster(grade II),and twelve days or more for severe disaster(grade III).It suggests that optical activity suffered serious injury and could not recover after twelve days sparse sunlight.Therefore 12-day in sparse sunlight is critical disaster index for celery.The results in this study could be used to provide scientific basis for protecting facilities agriculture and preventing the meteorological disaster.