Showing total 4 results

1. Detecting Key Factors of Grasshopper Occurrence in Typical Steppe and Meadow Steppe by Integrating Machine Learning Model and Remote Sensing Data.

Author

Lu, Longhui, Kong, Weiping, Eerdengqimuge, Ye, Huichun, Sun, Zhongxiang, Wang, Ning, Du, Bobo, Zhou, Yantao, Weijun, and Huang, Wenjiang

Subjects

REMOTE sensing, GRASSHOPPERS, STEPPES, MACHINE learning, MEADOWS, SEAGRASSES, MOUNTAIN soils, GRASSLAND soils

Abstract

Simple Summary: Grasshoppers are among the most dangerous agricultural pests of China. However, the monitoring, prediction and control of grasshoppers are complex and difficult. Therefore, it is crucial to detect the key factors affecting the spatial distribution of grasshopper occurrence, understand the role of the environmental factors in grasshopper occurrence, and study whether different laws exist between different grass types. Here we conduct a species–environmental matching model integrated by Maxent model and remote sensing data to identify the spatial distribution of grasshopper occurrence in Inner Mongolia of China, analyze the related environmental variables and detect the most relevant environmental factors for grasshopper occurrence both in typical steppe and meadow steppe. Grasshoppers mainly threaten natural grassland vegetation and crops. Therefore, it is of great significance to understand the relationship between environmental factors and grasshopper occurrence. This paper studies the spatial distribution and key factors of grasshopper occurrence in two grass types by integrating a machine learning model (Maxent) and remote sensing data within the major grasshopper occurrence areas of Inner Mongolia, China. The modelling results demonstrate that the typical steppe has larger suitable area and more proportion for grasshopper living than meadow steppe. The soil type, above biomass, altitude and temperature mainly determine the grasshopper occurrence in typical steppe and meadow steppe. However, the contribution of these factors in the two grass types is significantly different. In addition, related vegetation and meteorological factors affect the different growing stages of grasshoppers between the two grass types. This study clearly defines the different effects of key environmental factors (meteorology, vegetation, soil and topography) for grasshopper occurrence in typical steppe and meadow steppe. It also provides a methodology to guide early warning and precautions for grasshopper pest prevention. The findings of this study will be helpful for future management measures, to ensure grass ecological environment security and the sustainable development of grassland. [ABSTRACT FROM AUTHOR]

Published

2022

2. Enclosure in Combination with Mowing Simultaneously Promoted Grassland Biodiversity and Biomass Productivity.

Author

Li, Da, Nie, Yingying, Xu, Lijun, and Ye, Liming

Subjects

GRASSLANDS, MOWING, BIOMASS, PLANT diversity, BIODIVERSITY, PLANT productivity, PLANT communities

Abstract

Grassland is the primary land use in China, which has experienced extensive degradation in recent decades due to overexploitation. Here, we conducted field experiments to quantify the degraded grassland's recovery rate in Northeast Inner Mongolia in response to restoration measures, including fallow + enclosure (FE) and mowing + enclosure (ME) in comparison to livestock grazing (LG), since 2005. Plant community properties were surveyed and aboveground biomass (AGB) sampled in summer 2013. Our results showed that the regional dominant species Leymus chinensis retained its dominance under FE, whereas a range of forb species gained dominance under LG. Vegetative cover was maximal under FE and minimal under LG. The least amount of vegetation development and AGB were observed under LG. However, plant diversity showed an opposite pattern, with maximal diversity under LG and minimal under FE. Statistical analysis revealed that AGB was negatively associated with plant diversity for all treatments except ME. For ME, a positive AGB-diversity relationship was characterized, suggesting that mowing intensity was a controlling factor for the AGB-diversity relationship. Overall, these results demonstrated that enclosure plus mowing represented an effective conservation measure that provided fair support to forage production and a progressive pathway to a more resilient grassland system. [ABSTRACT FROM AUTHOR]

Published

2022

3. Modeling SOC and NPP responses of meadow steppe to different grazing intensities in Northeast China

Author

Wang, Yuhui, Zhou, Guangsheng, and Jia, Bingrui

Subjects

*CARBON in soils, *PRIMARY productivity (Biology), *STEPPES, *GRAZING, *ECOLOGICAL models, *BIOLOGICAL productivity

Abstract

Abstract: Grassland ecosystems play an important role in Chinese terrestrial ecosystems. However, great demand and excessive utilization of human beings on grassland resources have made it more susceptible to rapid degeneration in ecosystem properties and soil carbon levels. Among them, grazing is one of the key factors to make grassland ecosystems degraded. Therefore, it is very important to graze sustainably on grassland for preventing the degradation of grasslands. In this paper, as a case study, we simulated the potential changes of soil organic carbon (SOC) and net primary productivity (NPP) of meadow steppe dominated by Leymus chinensis under different grazing intensities based on CENTURY model (V4.0) in order to evaluate the effects of different grazing intensities and to pursue for optimal grazing intensity. The results showed that NPP and SOC of meadow steppe dominated by Leymus chinensis were very sensitive to grazing intensity. The optimal grazing intensity could be expressed by live shoots, and it should be less than 40% of whole live shoots per month, in order to mitigate the degradation of Leymus chinensis grassland and maintain its sustainable development. [Copyright &y& Elsevier]

Published

2008

4. The burrow behavior and influenced factors of a prairie subterranean zokor (Myospalax psilurus).

Author

Fu, He‐Ping, Yuan, Shuai, Man, Du‐Hu, Chai, Xiang‐Xian, Yang, Su‐Wen, Bao, Dar‐Han, and Wu, Xiao‐Dong

Subjects

ZOKORS, BIOLOGICAL evolution, VEGETATION dynamics, ANIMAL wintering

Abstract

The Transbaikal zokor (Myospalax psilurus) is a dominant rodent distributed in the meadow steppe of Inner Mongolia in northern China. Due to long history of evolution in subterranean environment, the zokor has an adaptive behavior: sealing burrow entrances. When a burrow is damaged, exposed entrances appear, and within a relatively short time, the zokor would be active in sealing the entrances to reduce risks to its survival. In general, it is thought that zokors avoid light and wind, which is consistent with their behavior of sealing burrow entrances. However, direct evidence from field experimental research has been lacking. This study set up 68 field sampling points in a meadow steppe in Inner Mongolia from August to September, 2014 and used a wind–light isolator to study the effects of wind and light factors on zokor burrow entrance sealing behavior. The results showed that there were no significant correlations between wind or light factors and the frequency of zokor burrow entrance sealing. Therefore, wind and light factors are not direct factors associated with zokors actively sealing burrow entrances. The Transbaikal zokor (Myospalax psilurus) is a dominant rodent distributed in the meadow steppe of northern China. It is a major underground pest rodent without hibernation. The underground roots of grassland vegetation are mainly used for its food. From September to October of autumn, it stored a large amount of food for overwintering, and reproduced in May of the following year. The harm to grassland vegetation is very serious. [ABSTRACT FROM AUTHOR]

Published

2018