农业工程学报
農業工程學報
농업공정학보
2014年
14期
96-104
,共9页
王若水%康跃虎%万书勤%孙甲霞
王若水%康躍虎%萬書勤%孫甲霞
왕약수%강약호%만서근%손갑하
土壤%灌溉%盐分%盐碱地%土壤养分%土壤EC%土壤环境
土壤%灌溉%鹽分%鹽堿地%土壤養分%土壤EC%土壤環境
토양%관개%염분%염감지%토양양분%토양EC%토양배경
soils%irrigation%salts%saline-sodic soil%soil nutrient%soil EC%soil environment
为给新疆地区盐碱地开发利用提供合理的灌溉指导,该文研究了滴灌条件下内陆干旱区重度盐碱地水分调控对土壤盐分与养分的影响,2008-2010年连续3 a设置了滴头正下方20 cm处5个土壤基质势下限控制灌溉:-5 kPa(S1)、-10 kPa(S2)、-15 kPa(S3)、-20 kPa(S4)和-25 kPa(S5),每个处理重复3次,按随机区组布置,于2008年试验前和2008-2010年试验后采集土壤样品(0~5、5~10、10~20、20~30和30~40 cm),测定土壤盐分(电导率、钠吸附比)以及土壤养分(速效N、P、K,全N、全P,有机质)含量。结果表明:3 a试验结束后,各处理0~40 cm土层土壤电导率与钠吸附比均显著(p<0.05)降低,其中-5 kPa(S1)处理土壤电导率降至5.3 dS/m,降低幅度最大,为89%;速效N、P、K,全N、全P以及有机质含量较试验前均有显著升高,升高幅度均在20%以上,且与土壤基质势下限成正比。各处理速效养分均在滴头周围形成累积区,且随与滴头距离的增加而减少,养分全量与有机质含量在土壤剖面垂直分布差异显著。各处理土壤C/N均较第1年播种前降低,且降低率(4.3%~13.5%)随土壤基质势下限的降低而升高。综合土壤盐分的淋洗效果以及土壤养分的改良程度,滴头正下方20 cm处土壤水基质势控制下限-5 kPa可以作为内陆干旱区前3 a盐碱地水分调控的指导灌溉制度。
為給新疆地區鹽堿地開髮利用提供閤理的灌溉指導,該文研究瞭滴灌條件下內陸榦旱區重度鹽堿地水分調控對土壤鹽分與養分的影響,2008-2010年連續3 a設置瞭滴頭正下方20 cm處5箇土壤基質勢下限控製灌溉:-5 kPa(S1)、-10 kPa(S2)、-15 kPa(S3)、-20 kPa(S4)和-25 kPa(S5),每箇處理重複3次,按隨機區組佈置,于2008年試驗前和2008-2010年試驗後採集土壤樣品(0~5、5~10、10~20、20~30和30~40 cm),測定土壤鹽分(電導率、鈉吸附比)以及土壤養分(速效N、P、K,全N、全P,有機質)含量。結果錶明:3 a試驗結束後,各處理0~40 cm土層土壤電導率與鈉吸附比均顯著(p<0.05)降低,其中-5 kPa(S1)處理土壤電導率降至5.3 dS/m,降低幅度最大,為89%;速效N、P、K,全N、全P以及有機質含量較試驗前均有顯著升高,升高幅度均在20%以上,且與土壤基質勢下限成正比。各處理速效養分均在滴頭週圍形成纍積區,且隨與滴頭距離的增加而減少,養分全量與有機質含量在土壤剖麵垂直分佈差異顯著。各處理土壤C/N均較第1年播種前降低,且降低率(4.3%~13.5%)隨土壤基質勢下限的降低而升高。綜閤土壤鹽分的淋洗效果以及土壤養分的改良程度,滴頭正下方20 cm處土壤水基質勢控製下限-5 kPa可以作為內陸榦旱區前3 a鹽堿地水分調控的指導灌溉製度。
위급신강지구염감지개발이용제공합리적관개지도,해문연구료적관조건하내륙간한구중도염감지수분조공대토양염분여양분적영향,2008-2010년련속3 a설치료적두정하방20 cm처5개토양기질세하한공제관개:-5 kPa(S1)、-10 kPa(S2)、-15 kPa(S3)、-20 kPa(S4)화-25 kPa(S5),매개처리중복3차,안수궤구조포치,우2008년시험전화2008-2010년시험후채집토양양품(0~5、5~10、10~20、20~30화30~40 cm),측정토양염분(전도솔、납흡부비)이급토양양분(속효N、P、K,전N、전P,유궤질)함량。결과표명:3 a시험결속후,각처리0~40 cm토층토양전도솔여납흡부비균현저(p<0.05)강저,기중-5 kPa(S1)처리토양전도솔강지5.3 dS/m,강저폭도최대,위89%;속효N、P、K,전N、전P이급유궤질함량교시험전균유현저승고,승고폭도균재20%이상,차여토양기질세하한성정비。각처리속효양분균재적두주위형성루적구,차수여적두거리적증가이감소,양분전량여유궤질함량재토양부면수직분포차이현저。각처리토양C/N균교제1년파충전강저,차강저솔(4.3%~13.5%)수토양기질세하한적강저이승고。종합토양염분적림세효과이급토양양분적개량정도,적두정하방20 cm처토양수기질세공제하한-5 kPa가이작위내륙간한구전3 a염감지수분조공적지도관개제도。
Drip irrigation with its characteristic of applying water at low discharge rate and high frequency over a long period of time can maintain constant and high soil water contents in the root zone, and reduce salinity in soil water by leaching, particularly near the drip emitters. Recently, numerous studies have evaluated the use of different levels of soil matric potential (SMP) to trigger drip irrigation in arid and semiarid regions and have successfully reclaimed saline and saline-sodic soils. However, very few studies have explored soil nutrients during the reclamation process under drip irrigation and hence understanding of nutrients in saline-sodic soil under drip irrigation is limited. A three-year experiment was carried out to investigate the soil salt and nutrient variation in saline wasteland during reclamation under drip irrigation in inland and arid region. The experiment included five treatments in which the SMP thresholds at 20 cm depth were controlled at-5,-10,-15,-20 and-25 kPa. The treatments were replicated three times in a completely randomized block design. The results showed that the soil electrical conductivity (ECe) and sodium adsorption ratio (SAR) in 0-40 cm layer decreased significantly after three years of reclamation and the soil in-5 kPa treatment had the highest decreasing rate. By the end of the third cropping season, the ECe for -5 and -10 kPa treatments had reduced from 47.0 to 5.3 and 8.1 dS/m, respectively, which were in the range of the threshold salinity of cotton. The changes in SAR with time were similar as those of ECe. After the third irrigation season, the SAR, relative to the initial level, decreased by 40%-75%for the five treatments. Comparing with the initial value, soil available N, P, K, total N, P, and organic matter had a significant (P<0.05) increase and the increase rates were proportionate to SMP thresholds. The soil available nutrient for each treatment had a trend to concentrate around drip emitter and decrease with increasing soil depth. The distributions of soil inorganic N and available P and K in the soil profile were mainly affected by the characteristics of drip irrigation, irrigation regime and fertilization mode. With the reclamation in both soil chemical and physical properties, there were dramatic increases in soil N, P and K contents by the end of three years of the experiment. Since cotton growth became more vigorous during reclamation, there was also a considerable increase in soil organic matter by the end of 2010, and the increase rates were proportional to SMP thresholds. The vertical distributions of soil total nutrient and organic matter for the five treatments differed greatly. The soil C/N rate for each treatment had reduced compared to the initial value and the average reducing rates were increased as the SMP thresholds were decreased. Considering the soil salt leaching efficiency and nutrient improvement, an SMP of-5 kPa could be used to trigger irrigation for saline wasteland reclamation in the first three years in Northwest China.
