TY - JOUR
T1 - Negative effects of long-term phosphorus additions on understory plants in a primary tropical forest
AU - Mao, Qinggong
AU - Chen, Hao
AU - Gurmesa, Geshere Abdisa
AU - Gundersen, Per
AU - Ellsworth, David Scott
AU - Gilliam, Frank S.
AU - Wang, Cong
AU - Zhu, Fiefei
AU - Ye, Qing
AU - Mo, Jiangming
AU - Lu, Xiankai
N1 - Funding Information:
Financial support was provided by the National Natural Science Foundation of China (No. 31700422 , 41731176 , 41922056 , 31872691 ), Guangdong Basic and Applied Basic Research Foundation ( 2019A1515011642 ), and China Postdoctoral Science Foundation ( 2017M612775 ). We are grateful to Dr. Weixing Zhu and two anonymous reviewers for invaluable suggestions and comments. We appreciate Yujia Huang, Nianzhuang Liu, Lijie Deng, Juan Huang and Hui Mo for their assistance in laboratory and fieldwork.
Publisher Copyright:
© 2018 Elsevier B.V.
PY - 2021/12/1
Y1 - 2021/12/1
N2 - Human activities have disturbed global phosphorus (P) cycling by introducing substantial amounts of P to natural ecosystems. Although natural P gradients and fertilization studies have found that plant community traits are closely related to P availability, it remains unclear how increased P supply affects plant growth and diversity in P-deficient tropical forests. We used a decadal P-addition experiment (2007–2017) to study the effects of increased P input on plant growth and diversity in understory layer in tropical forests. We monitored the dynamics of seedling growth, survival rate, and diversity of understory plants throughout the fertilization period under control and P addition at 15 g P m−2 yr−1. To identify the drivers of responses, P concentration, photosynthesis rate and nonstructural carbon were analyzed. Results showed that long-term P addition significantly increased P concentrations both in soil pools and plant tissues. However, P addition did not increase the light-saturated photosynthesis rate or growth rate of the understory plants. Furthermore, P addition significantly decreased the survival rate of seedlings and reduced the species richness and density of understory plants. The negative effects of P addition may be attributed to an increased carbon cost due to the tissue maintenance of plants with higher P concentrations. These findings indicate that increased P supply alone is not necessary to benefit the growth of plants in ecosystems with low P availability, and P inputs can inhibit understory plants and may alter community composition. Therefore, we appeal to a need for caution when inputting P to tropical forests ecosystems.
AB - Human activities have disturbed global phosphorus (P) cycling by introducing substantial amounts of P to natural ecosystems. Although natural P gradients and fertilization studies have found that plant community traits are closely related to P availability, it remains unclear how increased P supply affects plant growth and diversity in P-deficient tropical forests. We used a decadal P-addition experiment (2007–2017) to study the effects of increased P input on plant growth and diversity in understory layer in tropical forests. We monitored the dynamics of seedling growth, survival rate, and diversity of understory plants throughout the fertilization period under control and P addition at 15 g P m−2 yr−1. To identify the drivers of responses, P concentration, photosynthesis rate and nonstructural carbon were analyzed. Results showed that long-term P addition significantly increased P concentrations both in soil pools and plant tissues. However, P addition did not increase the light-saturated photosynthesis rate or growth rate of the understory plants. Furthermore, P addition significantly decreased the survival rate of seedlings and reduced the species richness and density of understory plants. The negative effects of P addition may be attributed to an increased carbon cost due to the tissue maintenance of plants with higher P concentrations. These findings indicate that increased P supply alone is not necessary to benefit the growth of plants in ecosystems with low P availability, and P inputs can inhibit understory plants and may alter community composition. Therefore, we appeal to a need for caution when inputting P to tropical forests ecosystems.
KW - Community composition
KW - Diversity
KW - Phosphorus limitation
KW - Survival rate
KW - Tropical forests
KW - Understory plants
U2 - 10.1016/j.scitotenv.2021.149306
DO - 10.1016/j.scitotenv.2021.149306
M3 - Journal article
C2 - 34340072
AN - SCOPUS:85111614932
VL - 798
JO - Science of the Total Environment
JF - Science of the Total Environment
SN - 0048-9697
M1 - 149306
ER -