山西大学学报(自然科学版)
山西大學學報(自然科學版)
산서대학학보(자연과학판)
JOURNAL OF SHANXI UNIVERSITY
2007年
2期
285-289
,共5页
小麦}根系形态%图像分析%有机污泥%水处理残渣
小麥}根繫形態%圖像分析%有機汙泥%水處理殘渣
소맥}근계형태%도상분석%유궤오니%수처리잔사
wheatjroot morphology%image analysis%sewage sludge%water treatment residual
虽然水处理残渣与有机污泥混施可以减少土壤P过量积累以及P对地表和地下水的污染.但随着水处理残渣施用量增大,又有可能导致土壤P不足或对植物的铝毒作用.本研究通过对植物根系形态特征的分析,对温室控制环境下有机污泥与水处理残渣合施对冬小麦(Triticum aestivium L.)生长的影响作用进行了研究.实验设6种处理,生物污泥(g·kg-1干土)与水处理残瀣(g·kg-1干土)之比分别为0:0:0;80;50:0;50:10;50: 40和50:80.结果表明,与不施用有机污泥相比,施用有机污泥后冬小麦根系长度、根系表面积、根体积和根长密度均显著增加,分别平均增加139.4%,140.1%,157.6%和139.4%.在现有施用量范围内,水处理残渣使用量加大没用对各种根系参数(即根长、根表面积、根平均直径、根体积、根长密度和比根长)产生不利作用.证明水处理残渣与有机污泥混施,即可降低对环境质量的不利影响,在农业生产上具有良好应用前景.
雖然水處理殘渣與有機汙泥混施可以減少土壤P過量積纍以及P對地錶和地下水的汙染.但隨著水處理殘渣施用量增大,又有可能導緻土壤P不足或對植物的鋁毒作用.本研究通過對植物根繫形態特徵的分析,對溫室控製環境下有機汙泥與水處理殘渣閤施對鼕小麥(Triticum aestivium L.)生長的影響作用進行瞭研究.實驗設6種處理,生物汙泥(g·kg-1榦土)與水處理殘瀣(g·kg-1榦土)之比分彆為0:0:0;80;50:0;50:10;50: 40和50:80.結果錶明,與不施用有機汙泥相比,施用有機汙泥後鼕小麥根繫長度、根繫錶麵積、根體積和根長密度均顯著增加,分彆平均增加139.4%,140.1%,157.6%和139.4%.在現有施用量範圍內,水處理殘渣使用量加大沒用對各種根繫參數(即根長、根錶麵積、根平均直徑、根體積、根長密度和比根長)產生不利作用.證明水處理殘渣與有機汙泥混施,即可降低對環境質量的不利影響,在農業生產上具有良好應用前景.
수연수처리잔사여유궤오니혼시가이감소토양P과량적루이급P대지표화지하수적오염.단수착수처리잔사시용량증대,우유가능도치토양P불족혹대식물적려독작용.본연구통과대식물근계형태특정적분석,대온실공제배경하유궤오니여수처리잔사합시대동소맥(Triticum aestivium L.)생장적영향작용진행료연구.실험설6충처리,생물오니(g·kg-1간토)여수처리잔해(g·kg-1간토)지비분별위0:0:0;80;50:0;50:10;50: 40화50:80.결과표명,여불시용유궤오니상비,시용유궤오니후동소맥근계장도、근계표면적、근체적화근장밀도균현저증가,분별평균증가139.4%,140.1%,157.6%화139.4%.재현유시용량범위내,수처리잔사사용량가대몰용대각충근계삼수(즉근장、근표면적、근평균직경、근체적、근장밀도화비근장)산생불리작용.증명수처리잔사여유궤오니혼시,즉가강저대배경질량적불리영향,재농업생산상구유량호응용전경.
Co-application of water treatment residuals (WTR) with biosolids can reduce the buildup of P in soil as well as the risk of P losses to surface and ground water.However,co-application of WTR and biosolids may result in P deficiency in soil and plant AI toxicity with increasing WTR rate. In this study,their co-application effects on the growth of winter wheat (Triticum aestivium L. ) were studied in terms of morphological characteristics of plant roots in a greenhouse experiment. Treatments included WTR alone (0, 80 g · kg-1 soil) and combinations of biosolids at 50 g · kg-1 soil with WTR at 0,10,40,and 80 g · kg-1 soil,respectively. Biosolids addition increased root length (RL),root surface area (RSA).root volume (RV) and root length density (RLD) by 139. 4 %,140. 1 % ,157. 6 % and 139. 4 % (respectively. Increasing WTR application rate did not resuft in adverse effects on all root parameters [RL,RSA,RD (root average diameter),RV,RLD and SRL (specific root length)] within its current application range. This indicated co-application of WTR with biosoilds can be a promising practice for agricultural production when reducing adverse impacts on environmental quality.
