Effects of spring fire and slope on the aboveground biomass, and organic C and N dynamics in a semi-arid grassland of northern China

被引：0

作者：

ZHAO Xiang ^{[1
]}

HU Shuya ^{[2
]}

DONG Jie ^{[3
]}

REN Min ^{[1
]}

ZHANG Xiaolin ^{[1
]}

DONG Kuanhu ^{[1
]}

WANG Changhui ^{[2
]}

机构：

[1] College of Animal Science and Veterinary Medicine, Shanxi Agricultural University

[2] State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences

[3] Beijing Institute of Science and Technology Information

来源：

Journal of Arid Land | 2019年 / 11卷 / 02期

关键词：

aboveground biomass; plant functional group; spring fire; slope position; N content; organic C content; semi-arid grassland;

D O I：

暂无

中图分类号：

S812 [草地学、草原学];

学科分类号：

090503 ; 0909 ;

摘要：

The aboveground primary production is a major source of carbon（C） and nitrogen（N） pool and plays an important role in regulating the response of ecosystem and nutrient cycling to natural and anthropogenic disturbances. To explore the mechanisms underlying the effect of spring fire and topography on the aboveground biomass（AGB） and the soil C and N pool, we conducted a field experiment between April 2014 and August 2016 in a semi-arid grassland of northern China to examine the effects of slope and spring fire, and their potential interactions on the AGB and organic C and total N contents in different plant functional groups（C3 grasses, C4 grasses, forbs, Artemisia frigida plants, total grasses and total plants）.The dynamics of AGB and the contents of organic C and N in the plants were examined in the burned and unburned plots on different slope positions（upper and lower）. There were differences in the total AGB of all plants between the two slope positions. The AGB of grasses was higher on the lower slope than on the upper slope in July. On the lower slope, spring fire marginally or significantly increased the AGB of C3 grasses, forbs, total grasses and total plants in June and August, but decreased the AGB of C4 grasses and A.frigida plants from June to August. On the upper slope, however, spring fire significantly increased the AGB of forbs in June, the AGB of C3 grasses and total grasses in July, and the AGB of forbs and C4 grasses in August. Spring fire exhibited no significant effect on the total AGB of all plants on the lower and upper slopes in 2014 and 2015. In 2016, the total AGB in the burned plots showed a decreasing trend after fire burning compared with the unburned plots. The different plant functional groups had different responses to slope positions in terms of organic C and N contents in the plants. The lower and upper slopes differed with respect to the organic C and N contents of C3 grasses, C4 grasses, total grasses, forbs, A. frigida plants and total plants in different growing months. Slope position and spring fire significantly interacted to affect the AGB and organic C and N contents of C4 grasses and A. frigida plants. We observed the AGB and organic C and N contents in the plants in a temporal synchronized pattern. Spring fire affected the functional AGB on different slope positions, likely by altering the organic C and N contents and, therefore,it is an important process for C and N cycling in the semi-arid natural grasslands. The findings of this study would facilitate the simulation of ecosystem C and N cycling in the semi-arid grasslands in northern China.

引用

页码：267 / 279

页数：13

共 37 条

[1]

The effect of topography on arctic-alpine aboveground biomass and NDVI patterns[J] . Henri Riihim?ki,Janne Heiskanen,Miska Luoto.International Journal of Applied Earth Observatio . 2017

[2]

Post-fire recovery of herbaceous species composition and diversity, and soil quality indicators one year after wildfire in a semi-arid oak woodland[J] . Mehdi Heydari,Marzban Faramarzi,David Pothier.Ecological Engineering . 2016

[3]

Cover density recovery after fire disturbance controls landscape aboveground biomass carbon in the boreal forest of eastern Canada[J] . Dinesh Babu Irulappa Pillai Vijayakumar,Frédéric Raulier,Pierre Bernier,David Paré,Sylvie Gauthier,Yves Bergeron,David Pothier.Forest Ecology and Management . 2016

[4]

The effects of fire-breaks on plant diversity and species composition in the grasslands of the Loskop Dam Nature Reserve, South Africa[J] . Laura M Bachinger,Leslie R Brown,Margaretha W van Rooyen.African Journal of Range & Forage Science . 2016 (1)

[5] Evaluating the relationship between topography and groundwater using outputs from a continental-scale integrated hydrology model [J].

Condon, Laura E. ;

Maxwell, Reed M. .

WATER RESOURCES RESEARCH, 2015, 51 (08) :6602-6621

[6] Fire regimes and variability in aboveground woody biomass in miombo woodland [J].

Saito, Makoto ;

Luyssaert, Sebastiaan ;

Poulter, Ben ;

Williams, Mathew ;

Ciais, Philippe ;

Bellassen, Valentin ;

Ryan, Casey M. ;

Yue, Chao ;

Cadule, Patricia ;

Peylin, Philippe .

JOURNAL OF GEOPHYSICAL RESEARCH-BIOGEOSCIENCES, 2014, 119 (05) :1014-1029

[7]

Environmental factors covary with plant diversity–productivity relationships among Chinese grassland sites[J] . Wenhong Ma,Jin‐Sheng He,Yuanhe Yang,Xiangping Wang,Cunzhu Liang,Mohammat Anwar,Hui Zeng,Jingyun Fang,Bernhard Schmid.Global Ecology and Biogeography . 2010 (2)

[8]

Responses of microbial biomass and respiration of soil to topography, burning, and nitrogen fertilization in a temperate steppe[J] . Weixing Liu,Wenhua Xu,Yi Han,Changhui Wang,Shiqiang Wan.Biology and Fertility of Soils . 2007 (2)

[9]

Biomass and carbon accumulation in a fire chronosequence of a seasonally dry tropical forest[J] . RODRIGOVARGAS,MICHAEL F.ALLEN,EDITH B.ALLEN.Global Change Biology . 2007 (1)

[10]

Water- and plant-mediated responses of soil respiration to topography, fire, and nitrogen fertilization in a semiarid grassland in northern China[J] . Wenhua Xu,Shiqiang Wan.Soil Biology and Biochemistry . 2007 (3)

← 1 2 3 4 →