草业科学
草業科學
초업과학
PRATACULTURAL SCIENCE
2004年
12期
53-61
,共9页
亦如翰%盐見正衛%高橋繁男%大久保忠旦
亦如翰%鹽見正衛%高橋繁男%大久保忠旦
역여한%염견정위%고교번남%대구보충단
地上现存生物量%放牧压力%放牧草场%长期实验%施肥量
地上現存生物量%放牧壓力%放牧草場%長期實驗%施肥量
지상현존생물량%방목압력%방목초장%장기실험%시비량
aboveground biomass%grazing intensity%grazing pasture%long-term experiment%nitrogen application
为了揭示草地生态系统的现存生物量随时间的变化规律,明确其变化与环境因素,如气候条件和人为干扰(放牧压,施肥量等)之间的关系,1974-1994年,每年4-11月,在位于日本中部那须地区的国立草地研究所人造围栏放牧草场进行了放牧试验.每个不同放牧条件(牧压或施肥量)下分为4个亚区,每个亚区内放牧一周,四周为一个巡回放牧周期.测定了单位面积内主要牧草的地上现存生物量,并进行了统计学分析.结果表明,1974-1981年的8年间,放牧压分别为轻度和重度的两个放牧区内地上现存生物量的季节变化非常明显,变化范围为:重度放牧区180~260 g/m2,轻度放牧区200~360 g/m2.1982-1989年的8年间,上述放牧样地分成了放牧压相同,施肥分少量和大量两个放牧区进行了同样四周为一个巡回放牧周期的放牧试验.其地上现存量的变化范围:少肥区为150~380 g/m2,多肥区为240~360 g/m2.每一年中不同放牧条件下地上现存生物量的最大值均出现在5,6月份,最小值均出现在11月份.用复合回归分析求得了对现存生物量和气温,放牧压(或施肥量)之间的关系多项回归方程式.用协方差分析明确了放牧压力,施肥量以及季节和年度的变化对现存生物量的影响.
為瞭揭示草地生態繫統的現存生物量隨時間的變化規律,明確其變化與環境因素,如氣候條件和人為榦擾(放牧壓,施肥量等)之間的關繫,1974-1994年,每年4-11月,在位于日本中部那鬚地區的國立草地研究所人造圍欄放牧草場進行瞭放牧試驗.每箇不同放牧條件(牧壓或施肥量)下分為4箇亞區,每箇亞區內放牧一週,四週為一箇巡迴放牧週期.測定瞭單位麵積內主要牧草的地上現存生物量,併進行瞭統計學分析.結果錶明,1974-1981年的8年間,放牧壓分彆為輕度和重度的兩箇放牧區內地上現存生物量的季節變化非常明顯,變化範圍為:重度放牧區180~260 g/m2,輕度放牧區200~360 g/m2.1982-1989年的8年間,上述放牧樣地分成瞭放牧壓相同,施肥分少量和大量兩箇放牧區進行瞭同樣四週為一箇巡迴放牧週期的放牧試驗.其地上現存量的變化範圍:少肥區為150~380 g/m2,多肥區為240~360 g/m2.每一年中不同放牧條件下地上現存生物量的最大值均齣現在5,6月份,最小值均齣現在11月份.用複閤迴歸分析求得瞭對現存生物量和氣溫,放牧壓(或施肥量)之間的關繫多項迴歸方程式.用協方差分析明確瞭放牧壓力,施肥量以及季節和年度的變化對現存生物量的影響.
위료게시초지생태계통적현존생물량수시간적변화규률,명학기변화여배경인소,여기후조건화인위간우(방목압,시비량등)지간적관계,1974-1994년,매년4-11월,재위우일본중부나수지구적국립초지연구소인조위란방목초장진행료방목시험.매개불동방목조건(목압혹시비량)하분위4개아구,매개아구내방목일주,사주위일개순회방목주기.측정료단위면적내주요목초적지상현존생물량,병진행료통계학분석.결과표명,1974-1981년적8년간,방목압분별위경도화중도적량개방목구내지상현존생물량적계절변화비상명현,변화범위위:중도방목구180~260 g/m2,경도방목구200~360 g/m2.1982-1989년적8년간,상술방목양지분성료방목압상동,시비분소량화대량량개방목구진행료동양사주위일개순회방목주기적방목시험.기지상현존량적변화범위:소비구위150~380 g/m2,다비구위240~360 g/m2.매일년중불동방목조건하지상현존생물량적최대치균출현재5,6월빈,최소치균출현재11월빈.용복합회귀분석구득료대현존생물량화기온,방목압(혹시비량)지간적관계다항회귀방정식.용협방차분석명학료방목압력,시비량이급계절화년도적변화대현존생물량적영향.
In order to understand the temporal changes of biomass in grassland ecosystem, and to clarify the relation between these changes and environmental impacts, such as climatic factors and artificial disturbance,a grazing trail was carried out during a 21-year period from 1974 at a sown grassland of the National Grassland Research Institute, located in Nishinasuno, the central area of Japan. The data sets of biomass for each month (from April to November) of the 21 year period were analyzed. It showed aboveground biomass DW in the period from 1974 to 1981 ranged from 180 to 260 g/m2 in a heavy grazing plot and from 200 to 360 g/m2 in a light grazing plot, both with large seasonal variation. In the period from 1982 to 1989, it ranged from150 to 380 g/m2 in a low nitrogen plot, and from 240 to 360 g/m2 in a high nitrogen plot. The highest aboveground biomass was recorded in May and June, and the lowest was recorded in November for each of the treatment for each year. A multiple regression analysis was done to clarify the relation between biomass and meteorological conditions, and an analysis of variance (ANOVA) was used to clarify the effects of grazing intensity, nitrogen application, and the year and month on biomass.
