Orginal Article |
|
|
|
|
Sand-fixing characteristics of Carex brunnescens and its application with straw checkerboard technique in restoration of degraded alpine meadows |
Jianjun KANG1,2, Ming ZHAO1,*(), Yanrong TAN1, li ZHU1, Danhui BING1, Yangdong ZHANG1, Shengli TONG3 |
1 Gansu Research Academy of Forestry Science and Technology, Lanzhou 730000, China 2 Northwest Institute of Eco-Environment and Resources, Chinese Academy of Sciences, Lanzhou 730000, China 3 Administration of Gansu Xinglongshan National Nature Reserve, Lanzhou 730000, China |
|
|
Abstract Carex brunnescens (Pers.), a typical clonal species, is considered to be the only herb found to date that can develop on sand dunes in Maqu alpine region of northwestern China. However, the characteristics that C. brunnescens resists to harsh alpine environment have not been documented. In this study, we conducted a field investigation to determine the morphological, reproductive, and sand-fixing characteristics of C. brunnescens. Concomitantly, we transplanted the belowground rhizomes of C. brunnescens to sand dunes and compared the abilities to restore degraded alpine meadows among sand dunes that had no further treatment (SD+N), sand dunes that had straw checkerboard technique but no transplanted rhizomes of C. brunnescens (SD+SCT), and sand dunes that had both SCT and transplanted rhizomes of C. brunnescens (SD+SCT+P). We found that belowground vertical rhizomes and horizontal rhizomes (including branching rhizomes and main rhizomes) of C. brunnescens were highly developed and that population reproduction was dominated by horizontal rhizomes. C. brunnescens exhibited a significant sand-fixation effect under following conditions: population density was 145-156 ramets/m2, vegetation cover was 31.2%-39.3%, total length of belowground rhizomes was 11,223 cm/m2, total length of belowground first-order roots was 9161-10,524 cm/m2, fresh weight of aboveground part was 198.5-212.6 g/m2, and fresh weight of belowground part was 578.8-612.4 g/m2. It should be particularly noted that SD+SCT+P treatment (sand dunes that had both straw checkerboard technique and transplanted rhizomes of C. brunnescens) was the best and SD+N (sand dunes that had no further treatment) was the worst in terms of following biotic indicators: total number of reproductive ramets, total number of belowground rhizomes, and fresh weight of aboveground and belowground parts of C. brunnescens, contents of soil organic carbon, available nitrogen, microbial biomass carbon, and microbial biomass nitrogen. It implies that applying SCT in sand dunes and transplanting belowground rhizomes to sand dunes with SCT could improve both soil fertility and growth of C. brunnescens. These results suggest that the SCT-promoted high reproductive abilities of belowground rhizomes of C. brunnescens can successfully facilitate the establishment of ramets and can thus be an effective strategy to restore degraded vegetation in Maqu alpine region of northwestern China.
|
Received: 13 February 2017
Published: 22 August 2017
|
Corresponding Authors:
|
|
|
[1] | Amsberry L, Baker M A, Ewanchuk P J, et al.2000. Clonal integration and the expansion of Phragmites australis. Ecological Applications, 10(4): 1110-1118. | [2] | Bao S D.2000. Soil and Agricultural Chemistry Analysis (3rd ed.). Beijing: China Agriculture Press, 39-86. (in Chinese) | [3] | Brookes P C, Powlson D S, Jenkinson D S.1982. Measurement of microbial biomass phosphorus in soil. Soil Biology and Biochemistry, 14(4): 319-329. | [4] | Cailson T N, Ripley D A.1997. On the relation between NDVI, fractional vegetation cover, and leaf area index. Remote Sensing of Environment, 62(3): 241-252. | [5] | Cao Y C, Jiang D M, Zhu L H, et al.2007. A melioration effect of sand-fixing Hedysarum fruticosum plantations on soil nutrient contents and biological activities. Chinese Journal of Applied Ecology, 18(8): 1739-1744. (in Chinese) | [6] | Chen Z C, Li N, Liu C H.2013. Effects of straw checkerboard barriers on soil nutrients in water diversion project in the Gurbantunggut Desert. Pratacultural Science, 30(5): 699-702. (in Chinese) | [7] | Dai H L, Jin F X, Zhang K L.2011. A review of field measurement on wind erosion. Advances in Earth Science, 26(4): 401-408. (in Chinese) | [8] | Dai S M, Qiu G Y, Zhao M.2008. Study on land desertification and its prevention and control measures in the Minqin Oasis in Gansu Province. Arid Zone Research, 25(3): 319-324. (in Chinese) | [9] | Dech J P, Maun M A.2006. Adventitious root production and plastic resource allocation to biomass determine burial tolerance in woody plants from central Canadian coastal dunes. Annals of Botany, 98(5): 1095-1105. | [10] | Diao Z Y, Xu L R, Feng C Y, et al.2012. The ground spectral model for estimating vegetation coverage on desertified grassland, Hulunbeier, Inner Mongolia, China. Journal of Arid Land Resources and Environment, 26(2): 139-144. (in Chinese) | [11] | Dong Z B, Wang X M, Liu L Y.2000. Wind erosion in arid and semiarid China: An overview. Journal of Soil and Water Conservation, 55(4): 439-444. | [12] | Gomes L, Arrúe J L, López M V, et al.2003. Wind erosion in a semiarid agricultural area of Spain: The WELSONS project. CATENA, 52(3-4): 235-256. | [13] | Gong G L, Liu J Y, Shao Q Q.2014. Effects of vegetation coverage change on soil conservation service of typical steppe in Inner Mongolia. Journal of Geo-information Science, 16(3): 426-434. (in Chinese) | [14] | Gu W, Cai X P, Xie F, et al.2002. Study on relationship between vegetation cover and distribution of days of sandstorm: Taking central and western inner mongolia for example. Advance in Earth Sciences, 17(2): 273-277. (in Chinese) | [15] | Hai C X, Liu B Y, Zhao Y.2002. Influence of soil humidity and vegetation coverage on wind erosion. Chinese Journal of Applied Ecology, 13(8): 1057-1058. (in Chinese) | [16] | He S F, Jiang D M, Alamusa.2007. Roles of vegetation in wind erosion control: A research review. Chinese Journal of Ecology, 26(5): 743-748. (in Chinese) | [17] | Jiang D M, Zhou Q L, Li X H, et al.2008. Sand-stabilizing measures and effects of biology and engineering of shifting sand in Horqin sandy land. Journal of Liaoning Technical University (Natural Science), 27(1): 141-143. (in Chinese) | [18] | Jiang S L, Hu Y F, Pu Q, et al.2016. Changes in soil nitrogen characteristics during grassland desertification in Northwest Sichuan. Acta Ecologica Sinica, 36(15): 4644-4653. (in Chinese) | [19] | Kang J J, Duan J J, Wang S M, et al.2013. Na compound fertilizer promotes growth and enhances drought resistance of the succulent xerophyte Haloxylon ammodendron. Soil Science and Plant Nutrition, 59(2): 289-299. | [20] | Kang J J, Zhao W Z, Zhao M, et al.2015. The cutting reproduction technique of Salix oritrepha and its application on degraded grasslands restoration. Journal of Soil and Water Conservation, 70(1): 45-53. | [21] | Kang J J, Zhao W Z, Zhao M.2016a. Remediation of blowouts by clonal plants in Maqu degraded alpine grasslands of northwest China. Journal of Plant Research, 31(2): 291-299. | [22] | Kang J J, Zhao M, Li G Y, et al.2016b. Tentative research of sand-fixing characteristics of Carex brunnescens on desertified grassland in Maqu alpine regions. Soil and Water Conservation in China, (2): 47-51. (in Chinese) | [23] | Li S L, Werger M J A, Zuidema P A, et al.2010a. Seedlings of the semi-shrub Artemisia ordosica are resistant to moderate wind denudation and sand burial in Mu Us sandland, China. Trees, 24(3): 515-521. | [24] | Li S L, Zuidema P A, Yu F H, et al.2010b. Effects of denudation and burial on growth and reproduction of Artemisia ordosica in Mu US sandland. Ecological Research, 25(3): 655-661. | [25] | Lian J, Zhao X Y, Wang S K, et al.2013. Impacts of wind erosion on the distribution patterns of soil organic carbon and total nitrogen in Horqin Sandy Land, China. Chinese Journal of Ecology, 32(3): 529-535. (in Chinese) | [26] | Liu F H, Liu J, Yu F H, et al.2007. Water integration patterns in two rhizomatous dune perennials of different clonal fragment size. Flora-Morphology, Distribution, Functional Ecology of Plants, 202(2): 106-110. | [27] | Luo W C, Zhao W Z.2015. Effects of wind erosion and sand burial on growth and reproduction of a clonal shrub. Flora-Morphology, Distribution, Functional Ecology of Plants, 217: 164-169. | [28] | Luo W C, Zhao W Z, Zeng F J, et al.2015. Water but not photosynthates integration exists between mother and daughter ramets of a root-derived clonal shrub. Plant Ecology, 216(2): 331-342 | [29] | Ma H, Kang J J, Zhao M, et al.2017. Biological sand-fixation characteristics of Carex brunnescens in Yellow River source region. Pratacultural Science, 34(4): 714-723. | [30] | Ma X X, Wang H F, Li S Y, et al.2015. Comparison of sand-protecting efficiency and terrain adapted of two checkerboard barriers. Bulletin of Soil and Water Conservation, 35(2): 344-349. (in Chinese) | [31] | Meadows M E, Hoffman M T.2002. The nature, extent and causes of land degradation in South Africa: Legacy of the past, lessons for the future? Area, 34(4): 428-437. | [32] | Qi D C, Li G Y, Chen W Y, et al.2006. Present status, causes and control countermeasures of natural grassland degeneration in Maqu County. Journal of Desert Research, 26(2): 202-207. (in Chinese) | [33] | Qiu G Y, Lee I B, Shimizu H, et al.2004. Principles of sand dune fixation with straw checkerboard technology and its effects on the environment. Journal of Arid Environments, 56(3): 449-464. | [34] | Roiloa S R, Alpert P, Tharayil N, et al.2007. Greater capacity for division of labour in clones of Fragaria chiloensis from patchier habitats. Journal of Ecology, 95(3): 397-405. | [35] | Roiloa S R, Antelo B, Retuerto R.2014. Physiological integration modifies δ15N in the clonal plant Fragaria vesca, suggesting preferential transport of nitrogen to water-stressed offspring. Annals of Botany, 114(2): 399-411. | [36] | SDRS (Shapotou Desert Research Station, Institute of Desert Research, Academia Sinica, Lanzhou). 1986. The principles and measures taken to stabilize shifting sands along the railway line in the southeastern edge of the Tenggar Desert. Journal of Desert Research, 6(3): 1-19. (in Chinese) | [37] | Tang J B, Xiao Y, An S Q.2010. Advance of studies on rhizomatous clonal plants ecology. Acta Ecologica Sinica, 30(11): 3028-3036. (in Chinese) | [38] | Wang F, Zhu L, Zhao M, et al.2013. Effect of different treatments on seed germination of Carex brunnescens. Chinese Agricultural Science Bulletin, 29(22): 36-39. (in Chinese) | [39] | Wang G, Qing J, Cheng G, et al.2001. Eco-environmental degradation and causal analysis in the source region of the Yellow River. Environmental Geology, 40(7): 884-890. | [40] | Wang J B, Wang Z G, Lv H.2008. Climate background analysis of grassland degradation in the important water source supply area of the Yellon River: a case study of Maqu County. Pratacultural Science, 25(4): 23-27. (in Chinese) | [41] | Wang Y B, Wang G X, Shen Y P, et al.2005. Degradation of the eco-environmental system in alpine meadow on the Tibetan Plateau. Journal of Glaciology and Geocryology, 27(5): 633-640. (in Chinese) | [42] | Wang Y W, Chai Q, Ouyang X Z, et al.2016. Evolution of soil nutrition and biological prosperities under sand-fixing plants in fringe area of Minqin oasis. Journal of Soil and Water Conservation, 30(1): 141-146, 177. (in Chinese) | [43] | Wei Q, Wang F, Chen W Y, et al.2010. Soil physical characteristics on different degraded alpine grasslands in Maqu County in upper Yellow River. Bulletin of Soil and Water Conservation, 30(5): 16-21. (in Chinese) | [44] | Wezel A, Rajot J L, Herbrig C.2000. Influence of shrubs on soil characteristics and their function in Sahelian agro-ecosystems in semi-arid Niger. Journal of Arid Environments, 44(4): 383-398. | [45] | Xing X Y, Huang Y M, An S S, et al.2013. Soil nitrogen concentrations and transformations under different vegetation types in forested zones of the Loess Gully region. Acta Ecologica Sinica, 33(22): 7181-7189. (in Chinese) | [46] | Xu C Y, Schooler S S, Van Klinken R D.2010. Effects of clonal integration and light availability on the growth and physiology of two invasive herbs. Journal of Ecology, 98(4): 833-844. | [47] | Xu M H, Liu T.2012. Species composition and windproof effect of natural vegetation at an oasis-desert ecotone in early spring. Arid Zone Research, 29(1): 64-72. (in Chinese) | [48] | Xu M X, Wang Z, Zhang J, et al.2012. Response of soil organic carbon sequestration to the “Grain for Green Project” in the hilly Loess Plateau region. Acta Ecologica Sinica, 32(17): 5405-5415. (in Chinese) | [49] | Ye X H, Dong M.2011. Remediation of blowout pits by clonal plants in Mu Us Sandland. Acta Ecologica Sinica, 31(19): 5505-5511. (in Chinese) | [50] | Yu F H, Wang N, He W M, et al.2008. Adaptation of rhizome connections in drylands: Increasing tolerance of clones to wind erosion. Annals of Botany, 102(4): 571-577. | [51] | Zhang D S, Wu W Y, Tian L H, et al.2014. Effects of erosion and deposition and dimensions selection of straw-checkerboard barriers in the desert of Qinghai Lake. Scientia Geographica Sinica, 34(5): 627-634. | [52] | Zhang P, Yin D Z, Shang H Y.2016. Anti-wind erosion effect of plants in Kara Bailey project area. Bulletin of Soil and Water Conservation, 36(1): 224-229. (in Chinese) | [53] | Zhao H L, He Y H, Zhou R L, et al.2009. Effects of desertification on soil organic C and N content in sandy farmland and grassland of Inner Mongolia. Catena, 77(3): 187-191. | [54] | Zhao W Z, Li Q Y, Fang H Y.2007. Effects of sand burial disturbance on seedling growth of Nitraria sphaerocarpa. Plant and Soil, 295(1-2): 95-102. | [55] | Zhao X B, Dang B, Fu Y R, et al.2010. Technology of wind-breaking and sand-fixing forest establishment along expressway in semiarid sandy land and benefit evaluation. Journal of Desert Research, 30(6): 1247-1255. (in Chinese) | [56] | Zhu L, Zhao M, Li G Y, et al.2012. Types of secondary barren in Maqu County on the upper Yellow River and its remediation techniques. Soil and Water Conservation in China, (10): 50-52. (in Chinese) | [57] | Zhu L, Wang F, Zhao M, et al.2013. Study on seed biological characteristics of Carex brunnescens. Soil and Water Conservation in China, (9): 56-58. (in Chinese) |
|
|
Viewed |
|
|
|
Full text
|
|
|
|
|
Abstract
|
|
|
|
|
Cited |
|
|
|
|
|
Shared |
|
|
|
|
|
Discussed |
|
|
|
|