西南师范大学学报(自然科学版)
西南師範大學學報(自然科學版)
서남사범대학학보(자연과학판)
JOURNAL OF SOUTHWEST CHINA NORMAL UNIVERSITY
2014年
11期
152-157
,共6页
刘辉%何德清%罗达璐%唐静%吕慧峰%王正银
劉輝%何德清%囉達璐%唐靜%呂慧峰%王正銀
류휘%하덕청%라체로%당정%려혜봉%왕정은
肥料组合%甘蓝%产量%品质%养分利用
肥料組閤%甘藍%產量%品質%養分利用
비료조합%감람%산량%품질%양분이용
fertilization combination%Chinese cabbage%yield%quality
田间小区试验研究了不同肥料组合处理对甘蓝产量、品质和养分利用的影响.结果表明,无肥和减素施肥的甘蓝产量仅为最佳施肥(OPT )的54.2%~79.2%,以无肥处理最低,减氮处理次之.在 OPT 基础上增施菜籽粕(M1)和泥炭(M2)显著提高甘蓝产量,并以施用菜籽粕的增产作用最大.OPT 及其增施不同肥料处理可使甘蓝商品率提高4~5个百分点.各减素和无肥处理均提高甘蓝硝酸盐含量,各增肥处理则为降低,以+ Zn 处理的作用最大,其次为+ M2处理.各施肥处理中以+ B 和+ M1处理降低甘蓝氨基酸含量的作用最大,以+ M1处理降低甘蓝维生素 C 含量的作用最大,对甘蓝还原糖含量的影响不大.各处理较 OPT 降低甘蓝全氮(+ M2除外)、全磷(- P处理的降低幅度最大)和全钾含量.高产甘蓝叶片 N/K 大于低产处理,N /P 和 K/P 较为协调.在减素处理中3种养分的利用率均<5%,氮磷钾养分平衡施用和增肥处理的 N ,P ,K 养分利用率分别为25.7%~33.3%,9.2%~17.3%和18.7%~29.4%.各处理以 OPT 的磷和钾素利用率最高,+ B 处理氮素利用率最高,+ M1处理 N ,P ,K养分利用率居中上水平,系较理想的肥料组合处理.
田間小區試驗研究瞭不同肥料組閤處理對甘藍產量、品質和養分利用的影響.結果錶明,無肥和減素施肥的甘藍產量僅為最佳施肥(OPT )的54.2%~79.2%,以無肥處理最低,減氮處理次之.在 OPT 基礎上增施菜籽粕(M1)和泥炭(M2)顯著提高甘藍產量,併以施用菜籽粕的增產作用最大.OPT 及其增施不同肥料處理可使甘藍商品率提高4~5箇百分點.各減素和無肥處理均提高甘藍硝痠鹽含量,各增肥處理則為降低,以+ Zn 處理的作用最大,其次為+ M2處理.各施肥處理中以+ B 和+ M1處理降低甘藍氨基痠含量的作用最大,以+ M1處理降低甘藍維生素 C 含量的作用最大,對甘藍還原糖含量的影響不大.各處理較 OPT 降低甘藍全氮(+ M2除外)、全燐(- P處理的降低幅度最大)和全鉀含量.高產甘藍葉片 N/K 大于低產處理,N /P 和 K/P 較為協調.在減素處理中3種養分的利用率均<5%,氮燐鉀養分平衡施用和增肥處理的 N ,P ,K 養分利用率分彆為25.7%~33.3%,9.2%~17.3%和18.7%~29.4%.各處理以 OPT 的燐和鉀素利用率最高,+ B 處理氮素利用率最高,+ M1處理 N ,P ,K養分利用率居中上水平,繫較理想的肥料組閤處理.
전간소구시험연구료불동비료조합처리대감람산량、품질화양분이용적영향.결과표명,무비화감소시비적감람산량부위최가시비(OPT )적54.2%~79.2%,이무비처리최저,감담처리차지.재 OPT 기출상증시채자박(M1)화니탄(M2)현저제고감람산량,병이시용채자박적증산작용최대.OPT 급기증시불동비료처리가사감람상품솔제고4~5개백분점.각감소화무비처리균제고감람초산염함량,각증비처리칙위강저,이+ Zn 처리적작용최대,기차위+ M2처리.각시비처리중이+ B 화+ M1처리강저감람안기산함량적작용최대,이+ M1처리강저감람유생소 C 함량적작용최대,대감람환원당함량적영향불대.각처리교 OPT 강저감람전담(+ M2제외)、전린(- P처리적강저폭도최대)화전갑함량.고산감람협편 N/K 대우저산처리,N /P 화 K/P 교위협조.재감소처리중3충양분적이용솔균<5%,담린갑양분평형시용화증비처리적 N ,P ,K 양분이용솔분별위25.7%~33.3%,9.2%~17.3%화18.7%~29.4%.각처리이 OPT 적린화갑소이용솔최고,+ B 처리담소이용솔최고,+ M1처리 N ,P ,K양분이용솔거중상수평,계교이상적비료조합처리.
A field experiment has been conducted to study the effects of different combination of fertilizer on yield ,quality and nutrient use efficiency of Chinese cabbage .The results indicate that the yields of cab‐bage in CK (no fertilizer) and reduced fertilizer treatments is accounted for 54 .2% - 79 .2% of the optimal treatment (OPT ) ,and the lowest is from CK and followed by the reduced N rate treatment .Compared on the OPT treatment ,added zinc or boric does not significantly improve cabbage yield ,while the OPT + M1 or + M2 did and OPT + M1 has the highest yield increase .The commercial cabbage yield could be increased by 4% - 5% compared to CK .Nitrate contents of cabbage in CK and reduced fertilizer treatments are in‐creased but decreased in all the treatments with increased fertilizer rates ,most significant with addition of Zn and followed by the OPT + M2 treatment .The treatments of OPT + B and OPT + M1 have the lowest contents of amino acid ,while the latter also has the lowest contents of vitamin C but no effect on reducing sugar .Compared to OPT ,all the other treatments reduce total N (except OPT + M2) ,P and K (except OPT + Zn) in cabbage .The leaf N /K ratio is positively related to cabbage yield ,and optimal the N /P and K/P ratio are observed in the cabbage with high yield .In the nutrient omission treatments ,use efficiency for N ,P and K are < 5% .In the balanced fertilizer treatment or treatments with increased nutrient rates , the use efficiency of N ,P and K significantly increased ,as 25 .7% - 33 .3% for N ,9 .2% - 17 .3% for P and 18 .7% - 29 .4% for K .The highest nutrient use efficiency is observed as P and K in the OPT treat‐ment ,N in OPT + B treatment ,and the second highest use efficiency for N ,P and K was from the OPT +M1 treatment ,an indication of an optimal fertilizer combination .
