杂草科学
雜草科學
잡초과학
WEED SCIENCE
2015年
2期
18-25
,共8页
袁方%储寅芳%朱凤%孙国俊%李粉华%潘云枫%张海艳%韩敏%季敏
袁方%儲寅芳%硃鳳%孫國俊%李粉華%潘雲楓%張海豔%韓敏%季敏
원방%저인방%주봉%손국준%리분화%반운풍%장해염%한민%계민
茶园%秋季杂草%生态位宽度%生态位重叠值
茶園%鞦季雜草%生態位寬度%生態位重疊值
다완%추계잡초%생태위관도%생태위중첩치
tea garden%autumn weed%niche breadth%niche overlap value
2013年10月对江苏省宜兴市丘陵茶园秋季杂草发生种类、数量、高度等进行调查,将其转换成相对多度和重要值数据,在此基础上计测了宜兴丘陵茶园28种主要杂草的生态位宽度和生态位重叠值,用 DCA 排序法作出反映杂草生态学相似程度的 DCA 排序图,并对不同样地杂草类群进行聚类分析。结果表明:宜兴市丘陵茶园秋季杂草共发现80种,分属40科71属,其中,发生频率>20%的杂草有28种。28种主要杂草中,蓬蘽(Rubus hirsutus)、大巢菜(Vicia sativa)、酢浆草(Oxalis corniculata)、毛鸡矢藤(Paederia scandens var.tomentosa)、野老鹳草(Geranium carolinianum)等5种杂草实际生态位较宽,为宜兴茶园秋季最主要的杂草(恶性杂草);蓬蘽、毛鸡矢藤、苦苣(Sonchus oleraceus)、小飞蓬(Conyza canadensis)、马唐(Digitaria sanguinalis)、野茼蒿(Crassocephalum crep-idioides)、一点红(Emilia sonchifolia)、乌敛莓(Cayratia japonica)、附地菜(Trigonotis peduncularis)、牛筋草(Eleusine indica)、爵床(Rostellularia procumbens)和狗尾草(Setaira viridis)之间生态位重叠值较大,对资源的竞争较为激烈,因此,其构成的杂草群落对茶树产生较大的危害;通过样地杂草相似性聚类分析,可将样地聚成5个明显类群:基质岩土不翻耕茶园,未翻耕除草、管理差茶园,翻耕除草、管理良好茶园,翻耕除草、管理精细茶园,不翻耕不化学除草、管理良好老茶园。茶园每个聚类群的秋季杂草优势种明显,群落结构不同。
2013年10月對江囌省宜興市丘陵茶園鞦季雜草髮生種類、數量、高度等進行調查,將其轉換成相對多度和重要值數據,在此基礎上計測瞭宜興丘陵茶園28種主要雜草的生態位寬度和生態位重疊值,用 DCA 排序法作齣反映雜草生態學相似程度的 DCA 排序圖,併對不同樣地雜草類群進行聚類分析。結果錶明:宜興市丘陵茶園鞦季雜草共髮現80種,分屬40科71屬,其中,髮生頻率>20%的雜草有28種。28種主要雜草中,蓬蘽(Rubus hirsutus)、大巢菜(Vicia sativa)、酢漿草(Oxalis corniculata)、毛鷄矢籐(Paederia scandens var.tomentosa)、野老鸛草(Geranium carolinianum)等5種雜草實際生態位較寬,為宜興茶園鞦季最主要的雜草(噁性雜草);蓬蘽、毛鷄矢籐、苦苣(Sonchus oleraceus)、小飛蓬(Conyza canadensis)、馬唐(Digitaria sanguinalis)、野茼蒿(Crassocephalum crep-idioides)、一點紅(Emilia sonchifolia)、烏斂莓(Cayratia japonica)、附地菜(Trigonotis peduncularis)、牛觔草(Eleusine indica)、爵床(Rostellularia procumbens)和狗尾草(Setaira viridis)之間生態位重疊值較大,對資源的競爭較為激烈,因此,其構成的雜草群落對茶樹產生較大的危害;通過樣地雜草相似性聚類分析,可將樣地聚成5箇明顯類群:基質巖土不翻耕茶園,未翻耕除草、管理差茶園,翻耕除草、管理良好茶園,翻耕除草、管理精細茶園,不翻耕不化學除草、管理良好老茶園。茶園每箇聚類群的鞦季雜草優勢種明顯,群落結構不同。
2013년10월대강소성의흥시구릉다완추계잡초발생충류、수량、고도등진행조사,장기전환성상대다도화중요치수거,재차기출상계측료의흥구릉다완28충주요잡초적생태위관도화생태위중첩치,용 DCA 배서법작출반영잡초생태학상사정도적 DCA 배서도,병대불동양지잡초류군진행취류분석。결과표명:의흥시구릉다완추계잡초공발현80충,분속40과71속,기중,발생빈솔>20%적잡초유28충。28충주요잡초중,봉류(Rubus hirsutus)、대소채(Vicia sativa)、작장초(Oxalis corniculata)、모계시등(Paederia scandens var.tomentosa)、야로관초(Geranium carolinianum)등5충잡초실제생태위교관,위의흥다완추계최주요적잡초(악성잡초);봉류、모계시등、고거(Sonchus oleraceus)、소비봉(Conyza canadensis)、마당(Digitaria sanguinalis)、야동호(Crassocephalum crep-idioides)、일점홍(Emilia sonchifolia)、오렴매(Cayratia japonica)、부지채(Trigonotis peduncularis)、우근초(Eleusine indica)、작상(Rostellularia procumbens)화구미초(Setaira viridis)지간생태위중첩치교대,대자원적경쟁교위격렬,인차,기구성적잡초군락대다수산생교대적위해;통과양지잡초상사성취류분석,가장양지취성5개명현류군:기질암토불번경다완,미번경제초、관리차다완,번경제초、관리량호다완,번경제초、관리정세다완,불번경불화학제초、관리량호로다완。다완매개취류군적추계잡초우세충명현,군락결구불동。
A survey of weed species,density and height was conducted in Yixing tea gardens to estimate the weed relative abundance and importance values in October of 201 3.The niche breadth and niche overlap values of selected 28 main weeds with 20% frequency were calculated from the obtained data,and a two -dimensional scatter plot of DCA ordination was drawn based on relevant values.There were 80 weed species,belonging to 71 genera of 40 families.Among them,the occurrence frequency of 28 weed species was over 20%.Among these 28 species,Rubus hirsutus,Vicia sativa,Oxalis corniculata,Paederia scandens var.to-mentosa,and Geranium carolinianum had wider niche breadth than those of other species,being the important weeds in Yixing tea gardens.The highest niche overlap values were found between R.hirsutus,P.scandens var.tomentosa,Sonchus oleraceus,Conyza canadensis, <br> Digitaria sanguinalis,Crassocephalum crepidioides,Emilia sonchifolia,Cayratia japonica,Trigonotis peduncularis,Eleusine indica,Rostellularia procumbens and Setaira viridis that were highly competitive for available resources.Therefore they are the species posing the greatest harm to tea plants.All sampling sites were quantitatively clustered into five groups inclu-ding basalt soil tea garden,non plowed and general -managed tea garden,plowed and well -managed tea garden,plowed and fine -managed tea garden,non plowed non chemical weeding,and well -managed old tea garden based on the simi-larity coefficient.Dominant weeds were different among five groups and formed relatively different weed communities in the tea gardens.