Differences in species diversity, biomass, and soil properties of five types of alpine grasslands in the Northern Tibetan Plateau.

Shuqin Ma,Beibei Zhang,Yuexuan Wu,Hui Zhang,Qi Jing

doi:10.1371/journal.pone.0228277

Shuqin Ma, Beibei Zhang + Show 3 more

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https://doi.org/10.1371/journal.pone.0228277

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Abstract

Approximately 94% of the land area of the Northern Tibetan Plateau is covered by grasslands, which comprise one of five key livestock producing regions in China. In contrast to most other regions worldwide, these alpine grasslands are much more sensitive to global climate change, thus they are under intense study. The differences in species diversity, plant biomass, and soil properties of five representative's alpine grassland types in the Northern Tibetan Plateau were investigated in this research. The results revealed that 11 community types were identified according to the importance of dominant species and constructive species. There were significant differences in the Margalef index (H), Simpson diversity index (D), Shannon-wiener diversity index (H'), and Pielou evenness index (J) indices between these five alpine grasslands. Further, the above-ground biomass (AGB), below-ground biomass (BGB), total biomass (TB), root:shoot (R/S) ratio, and coverage showed significant differences in 5 alpine grasslands. There were also considerable variations in the pH, total nitrogen concentration (TN), total phosphorus concentration (TP), soil organic carbon (SOC) and C-to-N ratio (C:N) among the five alpine grasslands. The highest value of biomass and soil characteristics was always in the alpine steppe (AS), or AM, while the lowest of that was in the alpine desert steppe (ADS), or alpine desert (AD). Moreover, there were significant differences in the soil particle size fractions between the five alpine grasslands. In the AM and AS, the dominant soil particle was clay, while in the alpine meadow-steppe (AMS), ADS, and AD it was fine and medium sand. Substantial correlations were found between the biomass and species diversity indices H, D or H' and soil TN, TP, or SOC. Moreover, silt had a significantly positive correlation with soil C:N, BGB, TB, and R/S, while medium sand and coarse sand was significant negatively correlated. With regard to these grassland types, it is proposed that the AM or AS may be an actively changing grassland types in the Northern Tibetan Plateau.

Highlights

The Tibetan Plateau, known as “the Third Pole of the Earth”, comprises ~ 2.3 million km2 of alpine grasslands with a mean elevation of more than 4000 m
The grassland alpine meadow-steppe (AMS), alpine meadow (AM) and alpine steppe (AS) samples for this experiment were selected in the Naqu Prefecture, which is located between 29 ̊55’ and 36 ̊30’N, and from 83 ̊55’ to 95 ̊5’E, and covers 394,632 km2 in Northeastern Tibet
Zhao et al [28] revealed that dominant species of alpine grasslands on the northern Tibetan Plateau have differential strategies in foliar nutrient resorption and growth to adapt to the limitation nutrient and water in desert steppes

Summary

Introduction

The Tibetan Plateau, known as “the Third Pole of the Earth”, comprises ~ 2.3 million km of alpine grasslands with a mean elevation of more than 4000 m These very important pasturelands are the highest and largest alpine grassland regions in the world [1,2] and are a differentiation center for new plant species [3]. In this region, terrestrial ecosystems and the ambient atmosphere interact and contribute to the establishment of diverse biomes and unique vegetation patterns [4]. An improved elucidation of the correlations between species diversity and plant growth might assist with understanding the the overall functionality of grassland ecosystems [12]

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