Your search keyword '"Maierdang Keyimu"' showing total 31 results

1. Disentangling the independent and interacting impacts of biophysical factors on the transpiration of a black locust ( Robinia pseudoacacia ) plantation in the semiarid Loess Plateau, China

Author

Chun Fan, Lei Jiao, Nan Lu, Maotian Li, Zongshan Li, Maierdang Keyimu, Liwei Zhang, and Hao Wang

Subjects

Soil Science, Environmental Chemistry, Development, General Environmental Science

Published

2022

2. Radial growth response of Quercus liaotungensis to climate change–a case study on the central Loess Plateau, China

Author

Maierdang Keyimu, Zongshan Li, Lei Jiao, Weiliang Chen, Xiuchen Wu, Zexin Fan, Fanjiang Zeng, and Bojie Fu

Subjects

Ecology, Physiology, Forestry, Plant Science

Published

2022

3. Root trait variation of seed plants from China and the primary drivers

Author

Maierdang Keyimu, Nannan An, Nan Lu, Bojie Fu, Weiliang Chen, and Mengyu Wang

Subjects

Root (linguistics), Variation (linguistics), Ecology, Phylogenetics, Biogeography, Botany, Trait, Biology, China, Ecology, Evolution, Behavior and Systematics

Published

2021

4. Phosphorous Supplementation Alleviates Drought-Induced Physio-Biochemical Damages in

Author

Abd, Ullah, Akash, Tariq, Fanjiang, Zeng, Jordi, Sardans, Corina, Graciano, Sami, Ullah, Xutian, Chai, Zhihao, Zhang, Maierdang, Keyimu, Muhammad Ahsan, Asghar, Hafiz Hassan, Javed, and Josep, Peñuelas

Published

2022

5. Accelerated warming in the late 20th century promoted tree radial growth in the Northern Hemisphere

Author

Jie Liu, Zong-Shan Li, Maierdang Keyimu, Xiaochun Wang, Haibin Liang, Xiaoming Feng, Guangyao Gao, and Bojie Fu

Subjects

Ecology, Plant Science, Ecology, Evolution, Behavior and Systematics

Abstract

Accelerated global warming in the late 20th century led to frequent forest-decline events in the Northern Hemisphere and increased the complexity of the relationships between tree growth and climate factors. However, few studies have explored the heterogeneity of responses of tree growth to climate factors in different regions of the Northern Hemisphere before and after accelerated warming. In this study, a total of 229 temperature-sensitive tree-ring width chronologies from nine regions on three continents in the Northern Hemisphere were used in the data analysis performed herein. A bootstrapped correlation analysis method was used to investigate whether the tree growth-climate response changed significantly in different regions between the periods before and after rapid warming. Probability density functions and piecewise linear fitting were used to study the fluctuation characteristics of the tree-ring width indices before and after rapid warming. At the end of the 20th century (from 1977 to 2000), rapid warming significantly promoted the radial growth of trees in different regions of the Northern Hemisphere, but tree radial growth was heterogeneous among the different regions from 1950 to 2000. After 1976, except in central North America and northern Europe, the correlation between tree growth and temperature increased significantly in the Northern Hemisphere, especially in Asia. From 1977 to 2000, tree-ring index and temperature divergences were observed in nine regions with a divergence of 2–5 years. From 1950 to 2000, tree growth tracked better average temperature variability in the Northern Hemisphere than regional temperature.

Published

2022

6. Population Structure and Spatial Distribution Pattern of Populus euphratica Riparian Forest Under Environmental Heterogeneity Along the Tarim River, Northwest China

Author

Asadilla Yusup, Ümüt Halik, Abdulla Abliz, Tayierjiang Aishan, Maierdang Keyimu, and Jianxin Wei

Subjects

Plant Science

Abstract

Populus euphratica Oliv. (Euphrates poplar), as the dominant tree species of desert riparian forests along the Central Asian inland rivers, plays a critical role in protecting arid land ecosystems. In recent decades, climate change and excessive water resources utilization activities have led to the environmental degradation of desert riparian forests along the Tarim River in northwest China. Understanding the forest stand structure and spatial distribution pattern provide important guidance for monitoring forest dynamics in support of sustainable management. However, few studies have examined how riparian forests stand attributes differ in response to environmental heterogeneity. In this study, terrestrial laser scanning (TLS) was applied to acquire a total of 1648 individual P. euphratica tree’s 3D structure attributes within 18 plots along the upper, middle, and lower reaches of the Tarim River, which included tree height (TH), diameter at breast height (DBH), crown diameter (CD), crown projection area (CPA), stand density index (SDI), age structure ratios, and spatial pattern. The results showed that the average tree segmentation and structure determination accuracies of TLS were 93.2 and 94.6%. From the upper to the lower reaches, the average TH and CD decreased by 3.8 and 0.3 m, while the DBH increased by 4.2 cm. The SDI and CPA exhibited the following order: upper reaches (454 n ha–1, 82.3%) > middle reaches (382 n ha–1, 67.3%) > lower reaches (263 n ha–1, 39.1%), the differences were significant at 0.05 level. The population age structure changed from growing population in the upper reaches to stable population in the middle and a temporarily stable population in the lower reaches. The pair correlation g(r) function determined random distribution pattern in the upper reaches [g(r) = 1.2], an aggregated pattern in the middle [g(r) = 3.1], and lower reaches [g(r) = 9.7]. The decline in groundwater depth and soil moisture increased aggregated distribution pattern (R = 0.67 and 0.56, P < 0.05) of the P. euphratica along the mainstream of Tarim River. The results enrich our understanding of the current development stage of P. euphratica, which is important for optimizing management strategies and realizing the sustainability of floodplain ecosystems.

Published

2022

7. Summer mean temperature reconstruction during the past 285 years based on tree-ring in northern Gaoligong Mountains, northwestern Yunnan of China

Author

Jingshu Wei, Zongshan Li, Maierdang Keyimu, Yijin Zhao, Xiaochun Wang, Yongzhe Chen, and Ze-Xin Fan

Subjects

010506 paleontology, 010504 meteorology & atmospheric sciences, Tsuga dumosa, biology, Geography, Planning and Development, Geology, biology.organism_classification, 01 natural sciences, Thermal variation, Feature (computer vision), Dendrochronology, Physical geography, Mean radiant temperature, China, 0105 earth and related environmental sciences, Chronology

Abstract

Historical temperature reconstructions enable us to understand the long-term thermal variation feature of a region. We developed a tree-ring width chronology of the coniferous species Tsuga dumosa ...

Published

2020

8. Reconstruction of maximum temperature on Zhegu Mountain, western Sichuan Plateau (China)

Author

Zongshan Li, Maierdang Keyimu, Bojie Fu, Xiaochun Wang, Yanjun Dong, Ze-Xin Fan, and Yijin Zhao

Subjects

010506 paleontology, Atmospheric Science, Maximum temperature, geography, Plateau, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 01 natural sciences, Dendrochronology, Environmental Chemistry, China, Geomorphology, Geology, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Historical temperature reconstructions at high altitudes are still insufficient in southwestern China, which is considered one of the most sensitive areas to climate change in the world. Here we developed a tree ring-width chronology of Faxon firAbies fargesiivar.faxonianaat the upper timber line on Zhegu Mountain, Miyaluo Scenic Area, western Sichuan, China. The climate-tree growth relationship analysis indicated temperature as the dominant regulator on radial tree growth in this region. The reconstruction of aggregated maximum temperature (TMX) of autumn and winter for the period 1856-2016 was achieved with a linear regression model that accounted for 43.6% of the actual variability in the common time series (1954-2016). The reconstruction identified 4 warm periods and 3 cold periods. Similarities of warm and cold periods with previously published reconstructions from nearby sites indicated the reliability of our reconstruction. The significant positive correlation between TMX reconstruction and the Asian-Pacific Oscillation index and the Atlantic Multi-decadal Oscillation index suggested a linkage between large-scale climate circulations and the thermal variability at a multi-decadal scale on the western Sichuan Plateau. We also found that solar activity exerted a strong influence on decadal temperature variability in this region. The cold periods were matched well with historical large volcanic eruptions. Our results strengthen the historical climatic information in southwestern China and contribute to further understanding the regional thermal variability as well as its driving mechanism.

Published

2020

9. Tree ring–based minimum temperature reconstruction in the central Hengduan Mountains, China

Author

Ze-Xin Fan, Zongshan Li, Maierdang Keyimu, Xiaochun Wang, Guoshuai Zhang, and Bojie Fu

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, 0207 environmental engineering, 02 engineering and technology, Present day, Snow, 01 natural sciences, Linear regression, Dendrochronology, Period (geology), Environmental science, Abies georgei, Physical geography, 020701 environmental engineering, China, 0105 earth and related environmental sciences, Chronology

Abstract

We developed a tree ring-width chronology of Abies georgei at the timber line in the Big Snow Mountain Scenic Area in northwestern Yunnan, China. The climate-tree growth response analysis indicated that temperature was the predominant regulator of A. georgei growth in this region. An annual mean minimum temperature (AMMT) reconstruction spanning A.D. 1837–2016 was developed with a linear regression model (y = 1.0x − 6e − 5) that accounted for 50.7% of the actual temperature variance during the common period (1960–2016). Based on the reconstructed temperature series, the warmer periods were 1840–1845, 1855–1865, 1880–1895, 1945–1965, and from 1995 until the present day, and the cold periods were 1870–1880, 1900–1930, and 1966–1980. By comparing our results with other regional tree ring records from surrounding areas, a distinctive amount of common warm and cold periods were found, indicating the reliability of our temperature reconstruction and suggesting that the climate in the study area was part of a large-scale climate system.

Published

2020

10. Climate and elevation control snow depth and snow phenology on the Tibetan Plateau

Author

Qianqian Ma, Maierdang Keyimu, Xiangyi Li, Shixing Wu, Fanjiang Zeng, and Lisha Lin

Subjects

Water Science and Technology

Published

2023

11. Trunk volume estimation of irregular shaped Populus euphratica riparian forest using TLS point cloud data and multivariate prediction models

Author

Asadilla Yusup, Ümüt Halik, Maierdang Keyimu, Tayierjiang Aishan, Abdulla Abliz, Babierjiang Dilixiati, and Jianxin Wei

Subjects

Ecology, Forestry, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Published

2023

12. Population Structure and Spatial Distribution Pattern of

Author

Asadilla, Yusup, Ümüt, Halik, Abdulla, Abliz, Tayierjiang, Aishan, Maierdang, Keyimu, and Jianxin, Wei

Published

2021

13. Phosphorous Supplementation Alleviates Drought-Induced Physio-Biochemical Damages in Calligonum mongolicum

Author

Abd Ullah, Akash Tariq, Fanjiang Zeng, Jordi Sardans, Corina Graciano, Sami Ullah, Xutian Chai, Zhihao Zhang, Maierdang Keyimu, Muhammad Ahsan Asghar, Hafiz Hassan Javed, and Josep Peñuelas

Subjects

Ecology, hyper-aridity, drought, antioxidant mechanism, N metabolism, P fertilization, xerophytes, Plant Science, Ecology, Evolution, Behavior and Systematics

Abstract

Calligonum mongolicum is a phreatophyte playing an important role in sand dune fixation, but little is known about its responses to drought and P fertilization. In the present study, we performed a pot experiment to investigate the effects of P fertilization under drought or well-watered conditions on multiple morpho-physio-biochemical attributes of C. mongolicum seedlings. Drought stress leads to a higher production of hydrogen peroxide (H2O2) and malondialdehyde (MDA), leading to impaired growth and metabolism. However, C. mongolicum exhibited effective drought tolerance strategies, including a higher accumulation of soluble sugars, starch, soluble protein, proline, and significantly higheractivities of peroxidase (POD) and catalase (CAT) enzymes. P fertilization increased the productivity of drought-stressed seedlings by increasing their growth, assimilative shoots relative water content, photosynthetic pigments, osmolytes accumulation, mineral nutrition, N assimilation, and reduced lipid peroxidation. Our findings suggest the presence of soil high P depletion and C. mongolicum high P requirements during the initial growth stage. Thus, P can be utilized as a fertilizer to enhance the growth and productivity of Calligonum vegetation and to reduce the fragility of the hyper-arid desert of Taklamakan in the context of future climate change.

Published

2022

14. Spatial Heterogeneity of Root Water Conduction Strategies of Zygophyllaceae Plants in Arid Regions of China

Author

Ying Chen, Yanjun Dong, Jie Liu, Zongshan Li, Xiaochun Wang, Maierdang Keyimu, Cong Wang, Guangyao Gao, and Xiaoming Feng

Subjects

General Immunology and Microbiology, General Agricultural and Biological Sciences, arid and semi-arid areas, Zygophyllaceae plants, root anatomy, life history strategy, General Biochemistry, Genetics and Molecular Biology

Abstract

Desert plants are the main component of species diversity in desert ecosystems, and studying the anatomy and function of desert plant xylem is of great significance for understanding climate sensitivity and adaptation mechanisms to arid ecosystems. In this study, 11 sampling points were selected in the region starting from the Loess Plateau to the Jungar Basin, the taproot anatomy materials of 9 samples of Zygophyllaceae plants were collected, and the water conduction strategies and spatial distribution characteristics of these species were analyzed. The age, growth rate, vessel number, vessel fraction, vessel area within a fixed measurement range (TVA), MVA, water conductivity (TKp, MKp) and vessel diameter ranged between 1 and 27 years, 43.67 and 678.10 μm/year, 20 and 1952, 4.43 and 26.58%, 8009.62 and 192069.12 μm², 27.63 and 2164.33 μm², 0.417 and 364.97 kg m−1 MPa−1 s−1, 0.000624 and 7.60 kg m−1 Mpa−1 s−1, and 5.57 and 73.87 μm, respectively. The number of root vessels (R = 0.27, p > 0.05) of Zygophyllaceae plants decreased with the decrease in precipitation, and the average vessel area (R = −0.28, p > 0.05) and hydraulic diameter (R = −0.29, p > 0.05) showed an upward trend. This shows that the water hydraulic efficiency priority strategy may be adopted in the root system of Zygophyllaceae plants in severe drought stress condition, and the water hydraulic safety priority strategy may be used in mild drought stress conditions. With the increase in temperature, the root age of Zygophyllaceae plants showed an increasing trend, and the growth rate showed a downward trend, indicating that the radial growth of the roots of Zygophyllaceae plants is mainly affected by temperature. Altitude influences plant growth by affecting temperature and precipitation in arid habitats. The findings of the present study on root xylem anatomical characteristics and life history strategies provides a scientific basis for the ecological restoration of vegetation in arid and semi-arid areas of China.

Published

2022

15. Gap dynamics of natural Populus euphratica floodplain forests affected by hydrological alteration along the Tarim River: Implications for restoration of the riparian forests

Author

Tayierjiang Aishan, Maierdang Keyimu, Zulpiya Mamat, Ümüt Halik, Aihemaitijiang Rouzi, and Ayjamal Keram

Subjects

0106 biological sciences, Hydrology, geography, geography.geographical_feature_category, Floodplain, biology, Climate change, Forestry, Management, Monitoring, Policy and Law, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Arid, Disturbance (ecology), Riparian forest, Environmental science, Ecosystem, Gap dynamics, Populus euphratica, 010606 plant biology & botany, Nature and Landscape Conservation

Abstract

Due to climate change and excessive human activities, runoff dynamics of the Tarim River in northwest China become more pronounced. Understanding the effects of hydrological alteration on the life strategy and dynamics of the Populus euphratica riparian forests is becoming increasingly important. Forest gaps led by such disturbances change the structure and function of the desert riparian forest ecosystems. However, there is a lack of research on the gap formation and dynamics of this special forest type, for which the main driving force of the gap disturbance has always been unknown. In this study, we investigated several parameters of P. euphratica forest gap, such as gap size, gap age, gap fraction, and gap makers to quantify the gap disturbance regimes in the natural floodplain forests along the Tarim River in arid northwest China. In the middle reaches of the Tarim River, a total number of 263 gap makers and 60 gaps in six 50 m × 50 m plots with a total area of 1.5 hm2 were investigated. The result showed that gap fraction was

Published

2019

16. Tree Mortality and Regeneration in Euphrates Poplar Riparian Forests Along the Tarim River, Northwest China

Author

Ayjamal Keram, Ümüt Halik, Tayierjiang Aishan, Maierdang Keyimu, Kadeliya Jiapaer, and Guolei Li

Abstract

BackgroundTree mortality and seedling and sapling recruitment are essential components of forest dynamics in arid regions, especially those with serious eco-hydrological problems. In recent decades, the mortality of the Euphrates poplar ( Populus euphratica ) along the Tarim River in Northwest China has increased. However, few studies have quantified the causes of mortality and regeneration in this azonal riparian forest type. MethodsThe present paper describes the annual hydrological response of tree mortality and regeneration in forest gaps. A total of 60 canopy gaps were investigated in six replicate grid plots (50 m × 50 m) and the annual runoff and water consumption data during the period of 1955–2016 were collected from hydrological stations along the middle reaches of the Tarim River. In addition, we compared the regeneration density of seedlings and saplings within the canopy gap areas (CGAs), undercanopy areas (UCAs), and uncovered riverbank areas (RBAs) through detailed field investigation. ResultsOur study found that the mortality of young and middle aged gap makers has increased markedly over recent decades, particularly since 1996. The main results indicated that regional water scarcity was the primary limiting factor for long-term changes in tree mortality, as shown by a significant correlation between the diameter at breast height (DBH) of dead trees and the annual surface water. The average density (or regeneration rate) of seedlings and saplings was highest in the RBAs, intermediate in the CGAs, and lowest in the UCAs. Compared with the UCAs, the CGAs promote tree regeneration to some extent by providing favorable conditions for the survival and growth of seedlings and saplings, which would otherwise be suppressed in the understory. Furthermore, although the density of seedlings and saplings in the CGAs was not as high as in the RBAs, the survival rate was higher in the CGAs than in the RBAs. ConclusionThis study shows that forest canopy gaps can play a decisive role in the long-term germination and regeneration of plant species. However, as a typical phreatophyte in this hyper-arid region, the ecosystem structure, functions and services of this fragile P. euphratica , floodplain forests are threatened by a continuous decrease of water resources, due to excessive water use for monocultural cotton irrigation, which has resulted in a severe reduction in intact poplar forests. Furthermore, the survival of seedlings and saplings is influenced by light availability and soil water at the regional scale. Our findings suggest that policymakers may need to reconsider the restoration and regeneration measures implemented in riparian P. euphratica forests to improve flood water efficiency and create canopy gaps. Our results provide valuable reference information for the conservation and sustainable development of floodplain forest ecosystems.

Published

2021

17. 531-year non-growth season precipitation reconstruction in the southeastern Tibetan Plateau

Author

Maierdang Keyimu, Zongshan Li, Bojie Fu, Guohua Liu, Weiliang Chen, Zexin Fan, Keyan Fang, Xiuchen Wu, and Xiaochun Wang

Abstract

Trees record climatic conditions during their growth, and tree-rings serve as a proxy to reveal the features of the historical climate of a region. In this study, we collected tree-ring cores of forest hemlock (Tsuga forrestii) from the northwestern Yunnan area of the southeastern Tibetan Plateau (SETP), and created a residual tree-ring width (TRW) chronology. An analysis of the relationship between tree growth and climate revealed that precipitation during the non-growth season (NGS) (from November of the previous year to February of the current year) was the most important constraining factor on the radial tree growth of forest hemlock in this region. In addition, the influence of NGS precipitation on radial tree growth was relatively uniform over time (1956–2005). Accordingly, we reconstructed the NGS precipitation over the period spanning from A.D. 1475–2005. The reconstruction accounted for 28.5 % of the actual variance during the common period 1956–2005, and the leave-one-out verification parameters indicated the reliability of the reconstruction. Based on the reconstruction, NGS was extremely dry during the years A.D. 1475, 1656, 1670, 1694, 1703, 1736, 1897, 1907, 1943, 1969, 1982, and 1999. In contrast, the NGS was extremely wet during the years A.D. 1491, 1536, 1558, 1627, 1638, 1654, 1832, 1834–1835, and 1992. Similar variations of the NGS precipitation reconstruction series and Palmer Drought Severity Index (PDSI) reconstructions from surrounding regions indicated the reliability of the reconstruction. A comparison of the reconstruction with Climate Research Unit (CRU) gridded data revealed that our reconstruction was representative of the NGS precipitation variability of a large region in the SETP.

Published

2021

18. A Comparative Analysis of the Hydraulic Strategies of Non-Native and Native Perennial Forbs in Arid and Semiarid Areas of China

Author

Yanjun Dong, Zongshan Li, Maierdang Keyimu, Ying Chen, Guangyao Gao, Cong Wang, and Xiaochun Wang

Subjects

fungi, food and beverages, Forestry, hydraulic conductivity traits, water conveyance strategies, root vessel anatomy

Abstract

(1) Background: Water transport systems play an important role in maintaining plant growth and development. The plasticity responses of the xylem anatomical traits of different species to the environment are different. Studies have shown that there are annual growth rings in the secondary root xylem of perennial herbaceous species. Studies on xylem anatomical traits, however, have mainly focused on woody species, with little attention given to herbaceous species. (2) Methods: We set 14 sampling sites along a rainfall gradient in arid and semiarid regions, and collected the main roots of native (Potentilla) and non-native (Medicago) perennial forbs. The xylem anatomical traits of the plant roots were obtained by paraffin section, and the relationships between the xylem traits of forbs were analyzed by a Pearson correlation. (3) Results: In the fixed measurement area (850 μm × 850 μm), the vessel number (NV) of Potentilla species was higher than that of Medicago species, while the hydraulic diameter (Dh) and mean vessel area (MVA) of Potentilla species were lower than those of Medicago species. With the increase in precipitation along the rainfall gradient, the Dh (R2 = 0.403, p = 0.03) and MVA (R2 = 0.489, p = 0.01) of Medicago species increased significantly, and NV (R2 = 0.252, p = 0.09) decreased, while the hydraulic traits of Potentilla species showed no significant trend with regard to the rainfall gradient. (4) Conclusions: The hydraulic efficiency of non-native Medicago forbs was higher than that of native Potentilla forbs, and the hydraulic safety of native Potentilla forbs was higher than that of non-native Medicago forbs. With the decrease in precipitation, the hydraulic strategies of non-native Medicago forbs changed from efficiency to safety, while native Potentilla forbs were not sensitive to variations in precipitation.

Published

2022

19. Variation of the floodplain forest ecosystem service value in the lower reaches of Tarim River, China

Author

Ümüt Halik, Ayjamal Keram, Maierdang Keyimu, Kalbinur Nurmamat, and Zulpiya Mamat

Subjects

Hydrology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Floodplain, Land use, Millennium Ecosystem Assessment, Biodiversity, Soil Science, Land cover, 010501 environmental sciences, Development, 01 natural sciences, Arid, Ecosystem services, Forest ecology, Environmental Chemistry, Environmental science, Water resource management, 0105 earth and related environmental sciences, General Environmental Science

Abstract

Ecosystem service and human activity assessment are essential for effective natural resources allocation; however, these were seldom researched in arid region. This study used the theory proposed by Millennium Ecosystem Assessment to analyse ecosystem services provided by the floodplain forest in the lower reaches of the Tarim River. Results showed the following: (a) In the research area, the ecosystem service values of approximately US$216.78 × 108 occurring from 1972 to 2015 showed a decreasing trend; (b) the total ecosystem service values for floodplain forest and water area for all land use and land cover types accounted for 87.43% of the total value in the research area, and water supply, biodiversity protection, and waste treatment accounted for 55% of the total function values—these were the highest service values; (c) this research showed that the estimated ecosystem service values of research area were inelastic to value coefficients. This study showed that future work should allow land use and Ecological Water Conveyance Project to follow with rigorous environmental impact analyses. These analyses will be crucial to maintain the stability and sustainable development in the lower reaches of the Tarim River and also can provide references for research in the arid regions of Northwest China and Central Asia.

Published

2017

20. Vitality variation and population structure of a riparian forest in the lower reaches of the Tarim River, NW China

Author

Florian Betz, Maierdang Keyimu, Choimaa Dulamsuren, and Ümüt Halik

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, biology, Ecology, Population structure, Diameter at breast height, Forestry, biology.organism_classification, Vitality, 01 natural sciences, Abundance (ecology), Riparian forest, Ecosystem, China, Populus euphratica, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Since 2000, the Chinese government has implemented emergency water diversion measures to restore the damaged riparian forest ecosystem with dominant tree species Euphrat poplar (Populus euphratica Oliv.) at the lower reaches of the Tarim River. In the present study, comparative analysis of variations in the vitality of P. euphratica trees were made using 2005 and 2010 data to illustrate the revitalization process of riparian forest. Poplar trees within 300 m of the riverbed were positively revitalized, while the vitality of trees farther than 300 m from the river decreased. Population structure was studied to demonstrate the development of poplar community. In the first belt, the class structure for the diameter at breast height (DBH) of P. euphratica fit a logistic model, and the 2nd, 3rd and 4th belt curve fittings were close to a Gaussian model; in other plots they were bimodal. Cluster analysis of the composition of the DBH class of poplar trees demonstrated that those within 16–36 cm DBH were the most abundant (58.49% of total) in study area, under 16 cm of DBH were second (31.36%), and trees >40 cm DBH were the least abundant (10.15%). More than 80% of the trees were young and medium-sized, which means that the poplar forest community in the vicinity of the lower Tarim River is at a stable developmental stage. The abundance of juvenile trees of P. euphratica in the first and second measuring belts was 12.13% in 2005 and increased to 25.52% in 2010, which means that the emergency water transfer had a positive impact on the generation of young P. euphratica trees in the vicinity of the river.

Published

2017

21. Influence of river hydrological change on the characteristics of canopy gaps and gap makers of Populus euphratica desert riparian forest

Author

阿依加马力·克然木 Ayjamal Keram, 祖皮艳木·买买提 Zulpiya Mamat, 艾力亚尔·艾尼瓦尔 Ailiya Ainiwaer, 买尔当·克依木 Maierdang Keyimu, 塔依尔江·艾山 Tayierjiang Aishan, and 玉米提·哈力克 Vmüt Halik

Subjects

Canopy, Hydrology, geography, Desert (philosophy), geography.geographical_feature_category, Ecology, biology, Environmental science, Riparian forest, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Populus euphratica

Published

2019

22. Spatial differences in the radial growth responses of black locust (Robinia pseudoacacia Linn.) to climate on the Loess Plateau, China

Author

Lei Jiao, Zongshan Li, Maierdang Keyimu, Jingshu Wei, Weiliang Chen, Guangyao Gao, Yihe Lü, and Bojie Fu

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, biology, Robinia, Humidity, Plant Science, Loess plateau, biology.organism_classification, 01 natural sciences, Agronomy, Productivity (ecology), Environmental science, Precipitation, Mean radiant temperature, Restoration ecology, Locust, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

The black locust (Robinia pseudoacacia Linn.) is the dominant tree species in the “grain for green” project on the Loess Plateau (LP) of China, and brings many ecological benefits to this planted region. However, there are concerns regarding its suitability as a plantation forest species in different regions of the LP. We used a dendroclimatological approach to investigate the radial growth response of black locust to varying climate in two sites on the LP with differing precipitation gradients. We took tree-ring samples from black locust in Yongshou County (in the semi-humid southern LP) and Shenmu County (in the semi-arid northern LP), and developed tree-ring width (TRW) chronologies for each. We performed moving correlation analyses between TRW chronologies and aggregated thermal (maximum temperature (TMX), minimum temperature (TMN), mean temperature (TMP)) and hydroclimatic factors (precipitation, self-calibrated Drought Severity Index (scPDSI), and humidity). The results demonstrated the increased influence of thermal factors during autumn, and the generally decreased influence of hydroclimatic factors on black locust radial growth in Yongshou, compared with the decreasing influence of thermal factors (during all seasons) and increasing influence of hydroclimatic factors (precipitation during summer, scPDSI and humidity during autumn) on black locust radial growth in Shenmu. The results indicated that black locust radial growth might benefit from the current climatic conditions in the southern LP. However, black locust radial growth stressed by water availability in the northern LP, which may reduce its vitality and productivity as climate warms in the future. These results have implications for regional forestry planning and ecological restoration strategies on the LP.

Published

2021

23. Tree-ring based minimum temperature reconstruction on the southeastern Tibetan Plateau

Author

Ze-Xin Fan, Guohua Liu, Zongshan Li, Maierdang Keyimu, Xiaochun Wang, Bojie Fu, Yuandong Zhang, Xiuchen Wu, and Ümüt Halik

Subjects

Radial tree, 010506 paleontology, Archeology, Global and Planetary Change, geography, Plateau, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Relationship analysis, Geology, Forcing (mathematics), 01 natural sciences, Paleoclimatology, Dendrochronology, Physical geography, Mean radiant temperature, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Chronology

Abstract

Increases in the annual minimum temperature (Tmin) has been more obvious than the increase in the annual mean temperature in the southeastern Tibetan Plateau (TP) over the past few decades; however, annual Tmin variability over the long-term in the southeastern TP has received scant attention. Here, we present a 413-year long tree-ring width chronology (TRW), which is composed of 22 site chronologies at high altitudes at the Hengduan Mountains on the southeastern TP. Climate–tree growth relationship analysis revealed that annual Tmin was the climatic factor that influenced radial tree growth in the area the most (R = 0.74, P

Published

2021

24. Recent decline of high altitude coniferous growth due to thermo-hydraulic constrains: evidence from the Miyaluo Forest Reserve, Western Sichuan Plateau of China

Author

Xiuchen Wu, Guohua Liu, Ze-Xin Fan, Songlin Shi, Bojie Fu, Xiaochun Wang, Zongshan Li, and Maierdang Keyimu

Subjects

0106 biological sciences, geography, Plateau, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ecology, biology, Context (language use), Plant Science, Effects of high altitude on humans, biology.organism_classification, 01 natural sciences, Arid, Abies fargesii, Environmental science, Physical geography, Precipitation, Sea level, Tree line, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Tree growth decline has been reported in many places around the globe under the context of increasingly warming climate, and strengthening drought intensity is detected to be the primary factor for such decline, particularly in northern forest sites, as well as arid and semi-arid areas. Yet, the forest growth decline in high altitude, high mountain sites certainly merits investigation. Here, we reported faxon fir (Abies fargesii var. faxoniana) forest growth decline (slope = -0.64) at the tree line (4150 m above sea level) in Miyaluo Forest Reserve (MFR) at the Western Sichuan Plateau, southwestern China since 2000. We investigated the cause of tree growth decline by applying dendrochronological approaches. We took tree-ring samples from fir trees at the tree line and developed tree-ring width (TRW) chronology. The tree growth – climate relationship analysis showed that maximum temperature (Tmax) was the primary factor limiting the radial growth of fir trees in the investigated area. The moving correlation analysis indicated the strengthening positive influence of Tmax, spring precipitation, and cloud cover during winter and monsoon period on radial growth since 2000s. Our results have shown that both thermal and hydraulic constrains accounted for the radial growth decline of fir trees at the tree line of MFR in the western Sichuan Plateau.

Published

2020

25. Climate sensitivity of conifer growth doesn’t reveal distinct low–high dipole along the elevation gradient in the Wolong National Natural Reserve, SW China

Author

Zongshan Li, Maierdang Keyimu, Ze-Xin Fan, and Xiaochun Wang

Subjects

0106 biological sciences, Nature reserve, 010504 meteorology & atmospheric sciences, Ecology, biology, Global warming, Larix potaninii, Tsuga chinensis, Carbon sink, Temperate forest, Plant Science, biology.organism_classification, 01 natural sciences, Forest ecology, Climate sensitivity, Environmental science, Physical geography, 010606 plant biology & botany, 0105 earth and related environmental sciences

Abstract

Recent climate warming is usually hypothesized to cause tree growth decline in the semi-arid regions where forests are particularly vulnerable to warming induced increases of water deficit. But there is still a large knowledge gap of climate warming effects on tree growth of cold temperate forest in the sub-humid region. Here we assess how climate warming has affected tree growth in the Wolong National Natural Reserve, Southwestern China, where recent warming might not cause tree growth decline because of the cold-humid climatic conditions. Tree-ring data from four co-dominant coniferous species (Larix potaninii var. macrocarpa, Tsuga chinensis, Abies faxoniana and Juniperus saltuaria) along an elevation gradient (from 2700 m to 3700 m) all imprinted temperature signals, and were both positively and significantly correlated with instrumental record of temperature data during the analyzed period of 1954–2010. Furthermore, the rising temperature since 1980 induced pervasive tree growth increases and stronger temperature signals for the coniferous species along the elevation gradient. The tree-ring chronology recorded a strong coherence with instrumental temperature since 1980 and was successful to keep up with the pace of climate warming rate. If climate warming continues, further increases in forest growth could be expected, and the terrestrial carbon sink will be strengthened for the local forest ecosystem in the future.

Published

2020

26. Climate signal shift under the influence of prevailing climate warming – Evidence from Quercus liaotungensis on Dongling Mountain, Beijing, China

Author

Keming Ma, Yuxin Zhang, Zongshan Li, Jingshu Wei, Maierdang Keyimu, Shuang Zhang, and Bojie Fu

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Ecology, Global warming, Plant Science, 01 natural sciences, Beijing, Quercus liaotungensis, Period (geology), Dendrochronology, Environmental science, Precipitation, Physical geography, China, 010606 plant biology & botany, 0105 earth and related environmental sciences, Chronology

Abstract

Increasing climate warming is inducing drought stress and resulting in forest growth decline in many places around the world. The recent climate of northern China has shown trends of both warming and drying. In this study, we obtained tree ring width chronology of Quercus liaotungensis Koidz. from Dongling Mountain, Beijing, China. We divided the temperature series of the study area into cooling (1940–1969) and warming intervals (1970–2016). The climate–tree growth response analysis showed that temperature exerted a limiting impact on the annual radial growth of Q. liaotungensis during the cooling period, whereas the influence of temperature was lower during the warming period. The moving correlation analysis showed that the influence of summer temperature decreased with the warming climate since the 1970s, and that the influence of winter and spring temperatures decreased since the 2000s. The correlation values between the chronology and precipitation decreased during the cooling period, whereas spring and early summer precipitation correlations began to increase in the 1970s and reached significance (p

Published

2020

27. Spatial distribution, source, and risk assessment of soil toxic metals in the coal-mining region of northwestern China

Author

Abdugheni Abliz, Maierdang Keyimu, Rukeya Sawut, and Qingdong Shi

Subjects

Pollution, 010504 meteorology & atmospheric sciences, Soil test, business.industry, media_common.quotation_subject, Coal mining, 010501 environmental sciences, Spatial distribution, 01 natural sciences, Soil contamination, Arid, Environmental chemistry, Soil water, General Earth and Planetary Sciences, Environmental science, business, Environmental quality, 0105 earth and related environmental sciences, General Environmental Science, media_common

Abstract

Soil toxic metal pollution is one of the most prominent environmental problems in the rapid industrialization of societies because of the considerable harm caused to human existence and the surrounding environments. Soil samples from 80 sampling sites around the coal-mining region of northwestern China were collected, and the geo-accumulation index (Igeo), pollution index (PI), and potential ecological risk index (PRI) were calculated, with the objective of assessing the soil toxic metal pollution level. The results showed that the average concentrations of Cr, Hg, and As exceeded the regional background values and the national soil environmental quality standards of China, while those of Zn, Cu, and Pb were below both soil-quality standards. The Igeo of toxic metals was ranked as Hg > As > Cr > Pb > Cu > Zn. The Igeo of Zn, Cu, and Pb indicated low pollution; the soils were moderately polluted by Hg and slightly moderately polluted by As, while other elements presented low pollution levels. The PI values of both As and Hg were higher than 3, indicating heavy pollution of these two metals. Zn and Cu originated from parent material, while Cr, As, and Hg originated from human activities such as coal burning, chemical industry, and traffic. Pb was influenced by both natural factors and human activities. The results of ecological risk assessment in the region showed that Zn, Cu, Cr, and Pb in all sample sites presented a low ecological risk, while Hg presented a high ecological risk. Therefore, Hg is the most hazardous toxic metals in the region. The spatial distribution trends revealed that the high-risk regions were found to be the industrial region of the study area. The research results provide a scientific basis and technical support for monitoring and early warning of soil pollution in arid regions.

Published

2018

28. Estimation of water consumption of riparian forest in the lower reaches of Tarim River, northwest China

Author

Alishir Kurban, Ümüt Halik, and Maierdang Keyimu

Subjects

0106 biological sciences, Hydrology, Global and Planetary Change, geography, geography.geographical_feature_category, biology, Air humidity, Soil Science, Geology, 010502 geochemistry & geophysics, biology.organism_classification, 01 natural sciences, Pollution, Wind speed, Tarim river, Water consumption, Air temperature, Environmental Chemistry, Riparian forest, Correlation test, Populus euphratica, 010606 plant biology & botany, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology

Abstract

The aim of this study is to estimate the water consumption of a Populus euphratica forest. Findings provide a scientific basis for water allocation to the lower reaches of the Tarim River, in Northwest China. In this paper, several different methods were used to gather data. The heat-pulse technique was applied to determine the stem sap flow of P. euphratica sample trees from May to September of 2015. Then, the P. euphratica sapwood area estimation model was established based on the correlation between the sapwood area and the tree biometric parameters. Finally, the water consumption of P. euphratica (n = 3000) trees was calculated. The results showed that the estimated sapwood area of P. euphratica (n = 3000) was 677,000 cm2, and the total water consumed by these trees during the measurement period was 23,000,000 L. The P. euphratica sap flow varies due to changing environmental factors. The average daily sap flow velocities were 814.3, 1461.75, 1907.27, 1657.51 and 1173.65 mL h−1 from May to September, respectively. The average daily accumulated sap flow was 22.44, 34.76, 46.98, 40.59 and 32.90 L from May to September, respectively. Pearson correlation analysis showed that variation of sap flow was positively related to solar radiation (R s) (R 2 = 0.715), air temperature (T a) (R 2 = 0.744), soil temperature (T s) (R 2 = 0.806), wind speed (W s) (R 2 = 0.104). At the same time, sap flow was negatively related to air humidity (H) (R 2 = −0.305). Stepwise regression analysis showed that solar radiation, air temperature, soil temperature and air humidity are the main factors influencing the P. euphratica sap flow variation.

Published

2017

29. Eco-morphological response of floodplain forests (Populus euphratica Oliv.) to water diversion in the lower Tarim River, northwest China

Author

Tayierjiang Aishan, Florian Betz, Maierdang Keyimu, Bernd Cyffka, Alishir Kurban, Ümüt Halik, and Martin Kuba

Subjects

Hydrology, Global and Planetary Change, geography, geography.geographical_feature_category, biology, Floodplain, Crown (botany), Soil Science, Geology, biology.organism_classification, Pollution, Ecological indicator, Environmental Chemistry, Ecosystem, Transect, Populus euphratica, Groundwater, Earth-Surface Processes, Water Science and Technology, Woody plant

Abstract

The Tarim River is about 1,320 km long and is one of the longest continental inland waterways in the world. In an undisturbed state, it is accompanied on both sides by floodplain forests of Euphrates poplar (Populus euphratica Oliv.). The rising water consumption in the upper and middle reaches, and massive hydro-technical interventions in the development of uncultivated land for cotton farming, especially during the last decades, have led to a widespread destruction of the natural ecosystems. This is the case particularly in the lower reaches of the river, where 320 km of the floodplain forests are either highly degraded or dead. Since the year 2000, the Chinese government has made efforts to restore these ecosystems and conducted man-made water diversion project into the affected area. The starting phase of recovering measures needs an efficient and extensive long-term monitoring. A combined approach of remote sensing and terrestrial samples can meet these demands. This study is based on the data from a small-scale ecological monitoring in the past 7 years and combination of QuickBird image information of the floodplain forests along the lower reaches of the Tarim River within the purview of the man-made restoration project. The effects of the artificial water diversion on the dynamics of the groundwater layer and the revitalization of P. euphratica floodplain forests have been analysed in the Arghan transect. The results showed that the groundwater level has risen from 12.6 to 5.5–6.2 m below the surface in the vicinity of the river beds. Some eco-morphological parameters of the P. euphratica trees have different levels of response to the ecological water diversion. To specify, in the vertical direction, the farther the trees are from the river, the weaker the response of ecological indicators. These parameters include tree vitality level, crown diameter, under branch height as well as newly developed crown types of P. euphratica trees. Generally, the floodplain forests within 200 m to the riverbed recovered remarkably, and those between 200 and 800 m from the river showed a medium response to the water transfer, while forests further away than 800 m from the river bed showed less sign of recovery.

Published

2014

30. [Ecology-economy harmonious development based on the ecological services value change in Yanqi Basin, Northwest China]

Author

Zulpiya, Mamat, Umut, Halik, Rouzi, Aji, Ilyas, Nurmemet, Mirigul, Anwar, and Maierdang, Keyimu

Subjects

China, Conservation of Natural Resources, Soil, Models, Economic, Ecology, Wetlands, Water Resources, Agriculture, Economic Development, Forests, Grassland, Environmental Monitoring

Abstract

In this paper, we used land use/cover ecosystem service value estimation model and ecological economic coordination degree model to analyze the changes of the ecosystem service value by the land use/cover changes during 1985, 1990, 1996, 2000, 2005 and 2011 in Yanqi Basin, Xin-jiang. Then we evaluated the ecology-economy harmony and the regional differences. The results showed that during 1985-2011, there was an increasing trend in the areas of waters, wetland, sand, cultivated land and construction land in Yanqi Basin. In contrast, that of the saline-alkali land, grassland and woodland areas exhibited a decreasing trend. The ecosystem service value in Yanqi Basin during this period presented an increasing trend, among which the waters and cultivated land contributed most to the total value of ecosystem services, while the grassland and the woodland had obviously declined contribution to the total value of ecosystem services. The research showed that the development of ecological economy in the study area was at a low conflict and low coordination level. So, taking reasonable and effective use of the regional waters and soil resources is the key element to maintain the ecosystem service function and sustainable and harmonious development of economy in Yanqi Basin.

Published

2015

31. Urban Ecology in China

Author

Ilyas Nurmemet, Maierdang Keyimu, Mirigul Anwar, Zulpiya Mamat, Ümüt Halik, and Rouzi Aji

Subjects

geography.geographical_feature_category, Ecology, Land use, business.industry, Wetland, Woodland, Structural basin, Urban area, Ecosystem services, Water resources, Geography, Economy, Agriculture, business

Abstract

In this paper, we used land use/cover ecosystem service value estimation model and ecological economic coordination degree model to analyze the changes of the ecosystem service value by the land use/cover changes during 1985, 1990, 1996, 2000, 2005 and 2011 in Yanqi Basin, Xin-jiang. Then we evaluated the ecology-economy harmony and the regional differences. The results showed that during 1985-2011, there was an increasing trend in the areas of waters, wetland, sand, cultivated land and construction land in Yanqi Basin. In contrast, that of the saline-alkali land, grassland and woodland areas exhibited a decreasing trend. The ecosystem service value in Yanqi Basin during this period presented an increasing trend, among which the waters and cultivated land contributed most to the total value of ecosystem services, while the grassland and the woodland had obviously declined contribution to the total value of ecosystem services. The research showed that the development of ecological economy in the study area was at a low conflict and low coordination level. So, taking reasonable and effective use of the regional waters and soil resources is the key element to maintain the ecosystem service function and sustainable and harmonious development of economy in Yanqi Basin.

Published

1989