生态系统生产总值的内涵、核算框架与实施条件——统计视角下的设计与论证

基于已有研究和中国当前实践,对GEP的内涵和核算框架进行理论论证,以期为GEP的后续应用开发提供基本规范。(1)辨析当前GEP已有定义,提出了经过优化的GEP定义:特定时期内一区域生态系统为经济生产和人类其他活动提供的最终产出价值,具体包括生态供应品、生态调节服务和生态文化服务三个组成部分。(2)确定GEP在以下两个方面的应用价值:辅助GDP评价区域发展业绩;为区域生态补偿提供标准。(3)参照国内生产总值(GDP)核算原理,设计出一套生态系统供应品和服务供给表和使用表,在此基础上生成了规范的GEP核算表和核算方法。(4)将框架设计落实到GEP核算实施层面,提出了后续需要考虑的相关分类体系、关键节点、实物和价值核算方法设计等重要问题及解决思路。     

基于地区GDP和人口空间分布的粤港澳大湾区生境质量时空演变研究

经济发展与人口集聚引起的土地利用变化对一个地区的生态环境影响显著,生境质量评价在一定程度上可以反映区域生物多样性的状况。分析地区生境质量与社会经济、人口密度的关系,能够为区域生态安全及可持续发展提供科学依据。运用InVEST模型,以粤港澳大湾区2005、2010、2015、2018年四期土地利用数据分析生境质量的时空演变特征,结合社会经济及人口分布数据探究各地区城市发展与生境质量的权衡关系,并预测2030年大湾区不同情景下生境质量状况。结果表明：（1）2005-2018年粤港澳大湾区整体生境质量逐年降低,呈现出中部低、四周高的环状分布,生境破碎、建设用地增加是生境质量下降的主要原因。（2）珠三角九市生境质量与地区总GDP呈弱负相关,与第一产业产值呈中等正相关,与第二产业产值呈中等负相关,与第三产业产值呈弱正相关。（3）粤港澳大湾区生境质量与人口密度存在较大的不平衡,最主要的空间为高生境质量-低人口密度、低生境质量-高人口密度两种类型。（4）通过空间管制分区,预测2030年大湾区规划保护情景下大湾区平均生境质量较2018上升0.04,达到0.599,生境质量有明显改善。     

Characterisation of the Nucleotide Exchange Factor ITSN1L: Evidence for a Kinetic Discrimination of GEF-Stimulated Nucleotide Release from Cdc42

Cdc42, a member of the Ras superfamily of small guanine nucleotide binding proteins, plays an important role in regulating the actin cytoskeleton, intracellular trafficking, and cell polarity. Its activation is controlled by guanine nucleotide exchange factors (GEFs), which stimulate the dissociation of bound guanosine-5′-diphosphate (GDP) to allow guanosine-5′-triphosphate (GTP) binding. Here, we investigate the exchange factor activity of the Dbl-homology domain containing constructs of the adaptor protein Intersectin1L (ITSN1L), which is a specific GEF for Cdc42. A detailed kinetic characterisation comparing ITSN1L-mediated nucleotide exchange on Cdc42 in its GTP- versus GDP-bound state reveals a kinetic discrimination for GEF-stimulated dissociation of GTP: The maximum acceleration of the intrinsic mGDP [2′/3′-O-(N-methyl-anthraniloyl)-GDP] release from Cdc42 by ITSN1L is accelerated at least 68,000-fold, whereas the exchange of mGTP [2′/3′-O-(N-methyl-anthraniloyl)-GTP] is stimulated only up to 6000-fold at the same GEF concentration. The selectivity in nucleotide exchange kinetics for GDP over GTP is even more pronounced when a Cdc42 mutant, F28L, is used, which is characterised by fast intrinsic dissociation of nucleotides. We furthermore show that both GTP and Mg²⁺ ions are required for the interaction with effectors. We suggest a novel model for selective nucleotide exchange residing on a conformational change of Cdc42 upon binding of GTP, which enables effector binding to the Cdc42 · GTP complex but, at the same time, excludes efficient modulation by the GEF. The higher exchange activity of ITSN1L towards the GDP-bound conformation of Cdc42 could represent an evolutionary adaptation of this GEF that ensures nucleotide exchange towards the formation of the signalling-active GTP-bound form of Cdc42 and avoids dissociation of the active complex.     

Kinetic Analysis of the Guanine Nucleotide Exchange Activity of TRAPP, a Multimeric Ypt1p Exchange Factor

TRAPP complexes, which are large multimeric assemblies that function in membrane traffic, are guanine nucleotide exchange factors (GEFs) that activate the Rab GTPase Ypt1p. Here we measured rate and equilibrium constants that define the interaction of Ypt1p with guanine nucleotide (guanosine 5'-diphosphate and guanosine 5'-triphosphate/guanosine 5′-(β,γ-imido)triphosphate) and the core TRAPP subunits required for GEF activity. These parameters allowed us to identify the kinetic and thermodynamic bases by which TRAPP catalyzes nucleotide exchange from Ypt1p. Nucleotide dissociation from Ypt1p is slow (∼ 10^− 4 s^− 1) and accelerated > 1000-fold by TRAPP. Acceleration of nucleotide exchange by TRAPP occurs via a predominantly Mg²⁺-independent pathway. Thermodynamic linkage analysis indicates that TRAPP weakens nucleotide affinity by < 80-fold and vice versa, in contrast to most other characterized GEF systems that weaken nucleotide binding affinities by 4-6 orders of magnitude. The overall net changes in nucleotide binding affinities are small because TRAPP accelerates both nucleotide binding and dissociation from Ypt1p. Weak thermodynamic coupling allows TRAPP, Ypt1p, and nucleotide to exist as a stable ternary complex, analogous to strain-sensing cytoskeleton motors. These results illustrate a novel strategy of guanine nucleotide exchange by TRAPP that is particularly suited for a multifunctional GEF involved in membrane traffic.     

Role of kinases and G-proteins in the hyposmotic stimulation of cardiac IKs

Exposure of cardiac myocytes to hyposmotic solution stimulates slowly-activating delayed-rectifying K⁺ current (I_Ks) via unknown mechanisms. In the present study, I_Ks was measured in guinea-pig ventricular myocytes that were pretreated with modulators of cell signaling processes, and then exposed to hyposmotic solution. Pretreatment with compounds that (i) inhibit serine/threonine kinase activity (10-100 μM H89; 200 μM H8; 50 μM H7; 1 μM bisindolylmaleimide I; 10 μM LY294002; 50 μM PD98059), (ii) stimulate serine/threonine kinase activity (1-5 μM forskolin; 0.1 μM phorbol-12-myristate-13-acetate; 10 μM acetylcholine; 0.1 μM angiotensin II; 20 μM ATP), (iii) suppress G-protein activation (10 mM GDPβS), or (iv) disrupt the cytoskeleton (10 μM cytochalasin D), had little effect on the stimulation of I_Ks by hyposmotic solution. In marked contrast, pretreatment with tyrosine kinase inhibitor tyrphostin A25 (20 μM) strongly attenuated both the hyposmotic stimulation of I_Ks in myocytes and the hyposmotic stimulation of current in BHK cells co-expressing Ks channel subunits KCNQ1 and KCNE1. Since attenuation of hyposmotic stimulation was not observed in myocytes and cells pretreated with inactive tyrphostin A1, we conclude that TK has an important role in the response of cardiac Ks channels to hyposmotic solution.     

Decoupling Analysis of Four Selected Countries

We examine decoupling conditions of domestic extraction of materials, energy use, and sulfur dioxide (SO₂) emissions from gross domestic product (GDP) for two BRIC (Brazil, Russia, India and China) countries (i.e., China and Russia) and two Organisation for Economic Co‐operation and Development (OECD) countries (Japan and the United States) during 2000–2007, using a pair of decoupling indicators for resource use (D_r) and waste emissions (D_e) and the decoupling chart, which can distinguish between absolute decoupling, relative decoupling, and non‐decoupling. We find that (1) during 2000–2007, decoupling between environmental indicators and GDP was higher in the two OECD countries as compared with the two BRIC countries. The key reason is that these countries were in different development stages with different economic growth rates. (2) Changes in environmental policies can significantly influence the degree of decoupling in a country. (3) China, Japan, and the United States were more successful in decoupling SO₂ emissions from GDP than in decoupling material and energy use from GDP. The main reason is that, unlike resource use, waste emissions (e.g., SO₂ emissions) can be reduced by effective end‐of‐pipe treatment. (4) The decoupling indicator is different from the changing rate of resource use and waste emissions. If two countries have different GDP growth rates, even though they may have similar values using the decoupling indicator, they may show different rates of change for resource use and waste emissions.     

中美减排二氧化碳的GDP溢出模拟

基于气候保护模型(State-contingent模型与Demeter模型)和GDP溢出模型(Mundell-Fleming模型),对中美两国在实施控制性气候保护措施之后所导致的GDP溢出影响的变化进行了模拟分析。结果表明,美国实行控制性减排政策对于中国的GDP溢出影响与不实施任何减排的情况相比,两者的差别并不明显,但是这种影响经历一个从负向到正向逐步上升的发展趋势,虽然中国实行控制性减排政策对于美国GDP溢出的影响,相比美国对于中国的影响,所导致的GDP溢出影响更小,但是也同样表现出了一个从负溢出到正溢出的过程。这一结果表明一国的控制性气候保护政策从长远来看会对另一国的经济发展产生正向的溢出。同时,针对两种情况,即不考虑他国GDP溢出影响和考虑他国GDP溢出影响,分别模拟计算了中美两国的GDP,进而对两种情况下的差额结果进行对比,分析了中美相互之间GDP溢出量的大小。结果发现,美国对中国GDP溢出影响要大于中国对美国的GDP溢出。     

基于农业生态服务价值的农业绿色GDP核算——以安塞县为例

将传统GDP绿色化,也就是“绿色GDP”是国民经济核算研究和探索的热点。从微观层面对农业生产进行绿色GDP核算,认为农业绿色GDP不仅包含传统的产品价值,还应包括农业对人类社会经济系统的生态服务价值,并以基于生态系统服务价值的“农业绿色GDP=农业常规GDP＋农业生态GDP”的公式核算了安塞县的绿色GDP。结果表明：（1）安塞县2000年的农业生产总值为29187万元,减去中间消耗为18972万元;（2）若考虑农业生态环境代价,则农业生产产值仅为6272．30万元,是农业常规GDP的33．06％,农业常规GDP背后至少隐含着66．94％的农业生态环境代价;（3）应用市场价值法、机会成本法、替代工程法、影子价格法等核算农业生态系统服务价值结果为504218．37万元,把农业生态系统服务价值作为农业系统的间接产出,则该县2000年的农业绿色GDP为510490．67万元。安塞县农业经济的获得背后至少有66．94％生态环境代价是依靠其农业生态系统的服务来提供和补偿的。     

Exploring the correlation between the sequence composition of the nucleotide binding G5 loop of the FeoB GTPase domain (NFeoB) and intrinsic rate of GDP release

GDP release from GTPases is usually extremely slow and is in general assisted by external factors, such as association with guanine exchange factors or membrane-embedded GPCRs (G protein-coupled receptors), which accelerate the release of GDP by several orders of magnitude. Intrinsic factors can also play a significant role; a single amino acid substitution in one of the guanine nucleotide recognition motifs, G5, results in a drastically altered GDP release rate, indicating that the sequence composition of this motif plays an important role in spontaneous GDP release. In the present study, we used the GTPase domain from EcNFeoB (Escherichia coli FeoB) as a model and applied biochemical and structural approaches to evaluate the role of all the individual residues in the G5 loop. Our study confirms that several of the residues in the G5 motif have an important role in the intrinsic affinity and release of GDP. In particular, a T151A mutant (third residue of the G5 loop) leads to a reduced nucleotide affinity and provokes a drastically accelerated dissociation of GDP.